CORAL REEFS DAMAGE ... WHO’S RESPONSIBLE?

The world’s coral reefs

“Corals reefs all over the world are in serious trouble” according to the World Atlas of Coral Reefs. The total area of the coral reefs of the world is only about 286,000 square kilometers. During the last 20years, the world has lost more than 25 % of these precious natural resources. Moreover, of the remaining reefs (according to the World Resources Institute) 58 % are in imminent danger due to human activities. This scary state of deterioration is probably the most significant catastrophe facing the diving community, because simply, without reefs there would be a remarkable decrease in the diving activities.
Many of the world’s top reef scientists predicted that coral reefs as we know them today will be destroyed by the middle of this century. That means, the next generation will only enjoy reefs in documentary movies and printed materials!
There are several reasons that coral reefs are dying, probably the top four are:
- Nutrient loading into coastal waters from agriculture and poorly or untreated sewage.
- Heavy sedimentation from large coastal construction and/or poor land-use practices.
- Over fishing or destructive practice such as blast or cyanide fishing.
- Global-scale problems like abnormal atmospheric warming and ozone depletion.

Tourism, diving and the coral reef
Of course we can’t ignore the impact on the coral reefs from tourism, but the fact is that the nature of tourism related damage is not what you might think. Most destruction related to coral reefs’ tourism is not because of scuba diving, but due to improper or irresponsible building design or construction practices and other problems related to infrastructure.
Poor planning and practices result in excessive sedimentation and habitat destruction during construction, and lack of adequate wastewater treatment afterward.
It is clear that there has been some confusion and misconceptions over exactly who has been the main reason for the coral reef degradation. Of course, divers are obvious targets to blame, since our activities are so visible and also because scuba diving and coral reefs are as well-associated as skiing and mountain slopes. That is why the view has been expressed by some that scuba divers represent a major factor in the decline of the coral reefs. There is a single major problem with this argument: It is not true. In fact, the beauty, the value of coral, and the efforts made to protect and preserve them, would have not been even an issue if the scuba diving had not been a common sport practice. Many of the coral reefs all over the world have been, for years, mistreated, misused and in fact destroyed by a variety of ignorant human behavior. In addition, scuba divers are the only known group that receives environmental information and adequate reef protection behavior during their basic training.
Researchers showed that the leading cause for coral reef damage from tourism activities is not diving, but in fact anchoring. Fortunately, the problem of anchoring is easily eliminated by using morning lines and doing drift dives as it is the case in the Egyptian Red Sea.
However, the dive community accepts that divers are responsible for some damage to coral reefs (although both the scale and nature of such damage is not nearly as widespread or devastating as from other sources). Moreover, the dive community has been positive in dealing with this concern through its educational programs and continuous cooperation with the nature protection programs.
Since the mid 80s the effect that divers have on coral reefs has come under the close examination of researchers and resource managers. Unfortunately, based on this research, politicians and government administrators now take important decisions about management of coral reefs with respect to diving activities and often disregard other vital effects.
Although these studies seem to be classic in terms of that the divers can have a significant negative effect on coral reefs within limited areas where diving is especially popular, they do overlook that overall damage caused by diving activity is less than 1% of the damage to coral reef.

Research and the outcomes

Some of the best known studies have been conducted on Australia’s Great Barrier Reef, the Virgin Islands of the Caribbean, Florida Keys and of course the Red Sea. A summary of observations and conclusions is presented herein;
- The vast majority of damage is caused by a very small minority of divers. It was found that 84% of divers caused no damage whatsoever, 4% of divers accounted for more than 70% of the damage. In addition, most damage was unintentional and divers who do damage are often unaware that they did.
- Branching corals such as table, Elkhorn and Staghorn (Acropora Sp.) are much more susceptible to divers’ damage than more robust boulder-type corals.
- 6-4% of all corals on a popularly dived reef were touched during a typical week. In addition 90% of all divers make at least one contact to the bottom, however, only 2% of these contacts caused immediate visible damage.
- Most of the researchers agree that divers do not inflict extensive damage comprehensive to the ecological function of a coral reef. However, divers’ damage can degrade the sparkling value of a reef.
- Many researchers concluded that the experience, the advice, and the quality of the briefing given by competent Dive Masters and/or Instructors is important. This is particularly critical since the prime element responsible for divers’ damage is poor buoyancy control.
- Divers tend to be at their clumsiest during the first 10 minutes of a dive. Studies showed that divers’ impact is greatest near moorings where divers arrive to the bottom and take a few minutes to adjust equipment and/or get control of their buoyancy. This has a critical implication for where mooring lines are placed.
- Out of almost every study, researchers found that women impact the coral reef far less than men do. This is not a call to start a gender war, but your explanation for this consistent finding is welcome!
- Another interesting finding is that there is no correlation between one’s level of diving experience and how often that individual contacted the corals (how about that!). In fact some of the researchers offered that “It seemed that inexperienced divers generally had poor buoyancy and finning control, but were more cautious about approaching the bottom, while more experienced divers spent more time exploring close to the terrain and bumping it as a result”.
- On the contrary to the above finding, some other studies showed indications that the more experienced the diver, the less effect she/he has on coral reefs. They note that the number of contacts with corals is remarkably reduced the higher the level of the diver. So these last two findings are still in the debate!
- Finally, carrying a still camera, video camera, being engaged in close up observation of coral reef are all identified as high-risk factors for reef impact.
Zoning and carrying capacity.

Many researchers are convinced that any damage to coral reef as a result of tourism would be likely to remain insignificant if appropriate management systems were implemented. The protected coral reef management plans include:
- The number and type of tourist visits
- Appropriate behavior of visitors
- Ensure that the coral reef has the proper natural surroundings to rapidly recover from any damage.
In addition, many resource managers use or consider the idea known as “zoning”. This is simply assigning special areas as “for research only” or implementing rules such as “take nothing but photos, leave nothing but bubbles”.
Closing areas to allow them to retrieve has been successfully part of the management plan implemented in the Great Barrier Reef Marine Park and in the Florida Keys National Marine Sanctuary.
Recently, resource managements have defined the new concept of the “carrying capacity”. A carrying capacity is simply “the maximum level of visitor use an area can accommodate so that high levels of satisfaction are gained by visitors with little negative impact on resources.”
Applying the carrying capacity concept to divers as a management strategy is not only a new area of research, but also inflicts several debatable issues that can be summarized in the following;
- Diver carrying capacity is a highly specific and localized measure, rather than a universal number for all coral reefs.
- The number of divers a reef can absorb without negative effect is totally dependant on the behavior of the divers.
- Other factors affecting the reef carrying capacity are hotels and resorts, snorkellers and other beach users. This is especially important in - easy to access from shore - sites such as those in the Red Sea.
Public awareness and education.

One can observe a positive point, that is, a significant change in the attitude of divers has occurred during the last two decades. Divers are definitely considered one of the most environmentally sensitive groups around, not only because they learn in every beginner’s course about the delicacy of the underwater marine life, but also because the environmental resources turns out to be the major attraction for them.
In addition, divers are the first to notice any decay or degradation in the marine environment. This explains why the damage that would have been done by a specific group of divers would be actually eliminated or at least minimized through education.

In a study done by David Medio in the Red Sea, he found out that;
- Uninformed divers – those who received no environmental briefing made contact with the coral reef 8 times per dive.
- 80% of those contacts were damaging.
- Only 35 % of all contacts were unintentional.

The following findings are especially important for dive guides and Instructors to remember. After a short adequate briefing reminding the diver of the following appropriate practice;
1. Controlling buoyancy
2. Maintaining a respectful distance
3. Being cautious about fin kicking
4. Avoid intentionally touching the corals

The following astonishing results were found;
- The impact went down from 8 to only 1.5 per dive
- Less than 30% of those were damaging
- 80% of all contacts were unintentional

This significant change put a lot of responsibility on dive guides and instructors conducting daily or safari diving. More public awareness efforts should be directed to visitors, especially snorkellers, and prior to conducting any activities. In addition, responsibility should also be shared with tour operators, tour guides and hotels to increase public awareness and encourage responsible environmental behavior.
We - the diving community - have always been not only backing up the efforts of preserving and protecting the natural resources but also delighted to take the initiative to do it. It is certainly unfair to accuse divers of being the cause of the significant and implacable damage to the coral reef. On the contrary, it is probably realistic to affirm that divers revealed the secrets of the underwater terrain, explored the magnificent marine life and introduced the submersed beauties to humanity.
Nevertheless, it is also essential that we - the diving community - continue to do our best to preserve the environmental resources through adapting responsible behavior, promote public awareness, emphasize education and above all promote diving activities.

By: Zeyad M. El Bassel

ARE YOU A SAFE DIVER?

During your basic training as a scuba diver your instructor spent hours teaching you rules, regulations, and limitations. Following the rules, sticking to the regulations and staying within the limits are generally what we are about to sum up.
After a dive or a dive vacation, you would probably say "Wahoo...I really had wonderful time, I really enjoyed it". Well, you won’t really say that and mean it unless the dive vacation was well planned, well prepared, the dives were shared with the right person(s), and above all you were safe.

Although it might sound really logical that everyone who set off for a diving vacation is aiming to “Have Fun”, years of professional work as a dive guide/instructor show that it is also remarkably useful to review the four main classics here in the preparation, what’s needed to be done before, during and after the dive.

1. Preparation:

1.1 Education is a key word for your safety. Safety through education is one of my favorite mottos. Here are some points to consider:

- Learn more about equipment, the physics, the physiology and the limitations
- Stay updated with the latest techniques in self rescue and buddy rescue
- Attend seminars, workshops and dive shows
1.2 Physical fitness is a major factor for diving activities, you may like to:

- Avoid being over weight
- Swim a few laps every week, use your fins
- Jogging is another option if swimming is not applicable
- Have a medical check annually

1.3 Psychological status is a major factor for your safety. Dive only when you feel up to it, not to please or satisfy a friend, a spouse, or even your own ego. Prepare yourself;

- Be physically fit
- Know you limits and stay within
- When you are about to experience a new playing field, ask questions, learn details and buddy up with experience.

1.4 Equipment is the tool with which to go underwater, enjoy, and come back safe. If you take good care of it, it will watch out for you.
- Choose the best fitting equipment; nothing is worse than a loose/ tight fitting fin, mask, or suit
- If you have your own equipment, check, maintain, and replace as recommended by the manufacturers
- When your equipment needs maintenance, use an officially recognized equipment repair specialist
- Thoroughly check and test that items are maintained before using them

1.5 Choosing a buddy is often looked at as an auxiliary point, there is only one problem with that: It is wrong. If I do not have the right person to share the experience with, I would rather be diving alone. It is probably safer. Therefore, maybe you want to consider the following:

- Do you share generally the same interests in a dive?
- Unless you are capable of taking care of other divers (by having the necessary experience and the proper professional training), you better dive with a more experienced or at least a diver who is as competent as yourself
- A person who’s company you would enjoy on land is most probably a good match for your diving activities

1.6 Choosing a destination is an intelligent choice that you eventually have to make. Here is a simplified check list;
- Read and learn about the destination
- When would be the best time to go?
- How can you get there?
- Compare high verses low season advantages
- Would you get all types of services you are looking for?
- Review costs and budget

1.7 “Save the dive” items such as tools, spare parts and first aid kit are essentials. An O-ring or a fin strap can cause you or your buddy to cancel a dive. A first aid kit well prepared to handle simple injuries and medical emergencies can make the difference between a safe trip and a disastrous one.

1.8 Watch out for the Logistics.
The diving vacation general plan allows you to successfully select and arrange details; such as clothing, medication, hotel/boat reservations, flight details, visa, cash, travellers’ cheques, credit cards, vaccinations, etc.

1.9 Diving license, log book and insurance are essentials. During registration with a dive operation, do not get offended when asked to check these out, as they have the right to do so and you also have the right to show your credentials.

2. Before you dive:

2.1 Eat easy to digest nutrition, you need to have the energy and feel well and fit to dive. Avoid heavy or greasy meals that are gas-forming, because discomfort or significant pain during ascents can occur due to expanding abdominal gases. Eating a great deal of any food immediately before diving also can cause discomfort and be genuinely dangerous if it leads to vomiting while underwater.

2.2 Drink enough water; dehydration (abnormal loss of fluid from the body) is considered one of the major elements that make you susceptible to decompression sickness, fatigue, and headaches, certainly because water comprises the greater part of the blood. Dehydration occurs when you take in less fluid than you lose in urine, exhaled moisture and perspiration. Divers lose fluids during preparation in the form of sweat. Each time you inhale through the regulator, you increase the humidity of inspired air 100%. This moisture, along with heat to warm up the incoming air, is drawn from your body. In addition, blood pooling in the body core because of water pressure or cold water temperatures and the effort to draw air from a regulator combined with the decrease of gravity stimulate divers to urinate more frequently than normal.
The response is called Diuresis. Substances that increase the output of urine by the kidneys are called diuretics and include coffee, tea and alcohol. You should avoid diuretics before and during a diving day. Drink fluids before and between dives to offset the diuretic effects of diving.
It is important to consider these losses and essential to compensate for them. Drink lots of water.

2.3 Choosing a dive site is another intelligent choice that you eventually have to make. If you are planning to dive in a known site;

- Read and learn about the site
- Review entry/exit points
- Tide considerations, currents and bottom configuration
- Emergency equipment, nearest emergency facilities. For a new site that no written info is available there is a list of considerations for pioneers;
- Ask the local seamen and experts about the site
- Make an assessment to determine entry/exit, currents and bottom formation.
- Prepare a contingency plan
- Prepare an emergency plan

2.4 Remember your right to abort the dive. Dive only when you feel well and up to it. Positive self-esteem is a prerequisite for safe scuba diving. Confidence is closely associated with positive self-esteem, and it means believing in “you” to get the job done. If you do not see the green light, remember that every diver has the right to skip a dive that he/she does not feel good about.

2.5 Review dive plan. It is your responsibility as a diver to make sure you understand the dive plan well. Every dive plan should consist of the following main points;
- Dive site and facilities
- Weather and water condition considerations
- Objectives and aims of the dive
- Limitations and special considerations
- Schedule, dive time, average / maximum depth and dive profile.
- Communications
- Buddy system and emergencies If you have missed something during briefing or planning, and/or you are confused about a detail, direction or a procedure do not hesitate to ask your guide / instructor or buddy, do not be shy.

2.6 Inform the boat crew, the dive center, or someone not diving about your general plan and when you are expected to be back. This would enable saving valuable time incase an emergency plan needs to be activated.

2.7 Final equipment check procedures that you learned during your beginners’ training program will save you time, effort and enhance your safety. Insure that your buddy’s equipment as well as yours is operating properly every time you are about to enter the water.

2.8 Go over emergency procedures with your buddy. Review the following;

- Hand signals
- Dealing with out of air situations
- Procedures for being separated from the buddy or the group
- Drifted away with the current
- Can’t find the exit/the boat
They often get forgotten and disregarded. However, the seconds you need to agree about what you are going to do, will make the action you or your buddy take in case of an emergency efficient, quick and can simply save lives.
2.9 Alcohol and diving should not be mixed. Alcohol negatively affects alertness, coordination and judgment. The effect of cold, nitrogen narcosis and other diving factors magnify the negative effects of alcohol on divers’ judgment and performance. Alcohol also constricts the arteries that serve the heart and dilates vessels to the skin.

The results are potential heart problems and excessive heat loss, which increase the risk of hypothermia. Alcohol also increases the urine output and can contribute to dehydration whilst diving. Moreover, alcohol combines with the hemoglobin 200 times more than oxygen or nitrogen, this obstructs the hemoglobin from performing its function as a gas carrying media to the lungs causing a dramatic deficiency in the gas exchange process which increase the potentials of decompression sickness hazards.

3. During your dive

3.1 Dive your plan. This rule has always proven to be a major key to safety. A well prepared dive plan simply deserves to be executed fully.

3.2 Activate the buddy system. It is not only for the pleasure of sharing the experience, but it is also for your own safety.

3.3 Keep track of your depth, air and time. The most common problem divers usually have with instruments is failure to monitor them! They are your tools to execute a safe, enjoyable and pleasant diving experience. USE THEM, PLEASE.

3.4 Be environmentally friendly. Keep your “tentacles” away from OUR coral reefs. Please, remember the golden rule “Take nothing but photos, leave nothing but bubbles”. When we dive we are the intruders, shouldn’t we show some respect to the marine environment?

3.5 “There are no old, bold divers” Be on the safe side. For any contingency plans or alternatives that you have to make, take the safe sided decision.

3.6 Enjoy your dive. Being underwater is being “On Top of the World”. There is probably nothing similar to being weightless underwater except walking on the moon.

However, most of us perhaps can’t afford the second one. Look around, move gracefully and appreciate all the surrounding underwater terrain.

4. After the dive

4.1 Drink enough water; this is intentionally repeated again, dehydration is probably the prime cause of de- compression sickness. Please refer to article 2.2

4.2 Remember that alcohol and diving should never be mixed; this point is also intentionally repeated again. Please refer to article 2.9

4.3 Your diving equipment deserves a treat. Take a few minutes to care for your gear;

- Rinse equipment with fresh water and dry it away from the sun
- Store equipment in a cool dry place
-Follow the manufacturers recommendations for maintenance and care.

4.4 To err is human. However, only safe divers avoid repeated mistakes.
If you have encountered any difficulties during the dive, have any questions, or are unhappy about certain behaviors, talk them over with your buddy/dive guide and work on correcting them.

4.5 Allow enough surface intervals for out gassing. Diving activities are typically a combination of sport and social events. Enjoy surface time as much as bottom time.
4.6 Consider the no-flying time. Allow a minimum of 24 hours before flying after a multi day diving vacation.
After all, you need that time for buying gifts for your loved ones and souvenirs to remember the exotic, wonderful and SAFE vacation.

Turn all your diving practices into safe, enjoyable and learning experiences.

Dive responsibly, follow the rules and regulations, stay on the safe side of limitations and refrain from contradictions. In other words, do yourself a favor - be a safe diver.

Happy diving,

By: Zeyad M. El Bassel
( NAUI Course Director # 10661L )

The Red Sea’s First Artificial Wreck Reef

At long last the Red Sea will have its first artificial wreck reef. The Red Sea Association with the continued support of H. E. Saad Abu Rida are making this a reality. It has been one of the Association’s goals from the outset to create new dive sites in the Red Sea, particularly the Hurghada area with two objectives in mind:

1- To alleviate the pressure on some of the overused dive sites in Hurghada which is beginning to take its toll on the health and attraction of some of the reefs producing negative environmental effects thereon.

2- Add to the attraction of Hurghada as a dive destination to regenerate the interest of divers and to counter the mostly unfair stigma that Hurghada dive sites have been damaged and are no longer attractive.

To this end the idea of an artificial wreck reef seemed the perfect answer as not only it will with time create a new reef under disciplined environmental practices but also provide the area with a new and exciting wreck dive that is accessible to most levels from beginners to technical penetration divers in a safe environment.

Funding was obtained from the NGO service centre with the full support and resources of the Red Sea Governorate, and the help and approval of the Red Sea Protectorate office in Hurghada. The cargo ship HEBA ALLAH (which is beached a few miles opposite Sindbad Resort), was the chosen vessel.

Current owner Mr Mohamadi Hoeidek, a leading Hurghada hotels pioneer was very enthusiastic towards the project and did not hesitate to donate the ship as a gift to the Red Sea Governorate. They in turn earmarked it for this ground breaking project by the Association under the supervision of Admiral Adel Hegab, the newly appointed general coordinator for investments and environmental affairs at the Red Sea Governorate.

 

The ship is 51 meters long, 8 meters in width and an impressive 300 tons of dead weight. As a former cargo ship it will make an ideal wreck dive with lots to discover in and around it.

This project which the Association has been working on since last November will include, in addition to the sinking of the ship other components:

1- A comprehensive Red Sea dive digital guide CD covering the area from El Gouna to the Deep South, with multilingual briefings for each site as well as environmental and safe diving practices.

2- A Red Sea corals book written by board member Mr. Mohamed Habib explaining all that there is about the subject in simple and easy to understand language.

3- A workshop program aimed at increasing the environmental awareness and enhancing correct diving practices from an environmental point of view for Red Sea professionals and users.

The project is now well under way and we are looking to sink HEBA ALLAH by the beginning of July when it will be officially opened as a new dive site.

Chamber Recompression Therapy

"No-one who has seen the victim of compressed air illness, gravely ill or unconscious, put back into a chamber and brought back to life by the application of air pressure, will forget the extraordinary efficiency of recompression, or will be backward in applying it to a subsequent case of illness."
(Robert Davis, 1935)

Diving accidents requiring recompression in a Recompression Chamber, namely Decompression Sickness (DCS) and Gas Embolism (GE) are put together under the term Decompression Illness (DCI).

The goal of recompression therapy is to prevent both further and permanent injuries caused by DCI.
Fundamentals of therapy for a DCI case are:
1- Raised atmospheric pressure to shrink the gas-phase (bubble) volume.
2- Raised inspired PO2 to washout the inert gas, promote tissue oxygenation and reduce oedema.
3- Adequate treatment time.
4- Adequate fluid management.
5- Appropriate drug therapy.

Proper application of recompression therapy can abort the mechanisms by which this illness can cause permanent tissue deformation and in many cases complete resolution of symptoms can be achieved.

It is often very difficult to diagnose accurately the exact nature or seriousness of a diving accident; so if any manifestations of DCS or GE are observed, it is of much greater importance to evacuate the victim to initiate treatment immediately than to delay treatment for a more accurate diagnosis. When differentiation between a serious case of DCS and GE cannot be made, the treatment for AGE should be conducted.

An initial evaluation, which helps to identify the urgency of a DCI case, is determined by the following:
1- Onset of symptoms. The longer the surface interval prior to symptoms appearing, the less likely they are to worsen.
2- Severity of symptoms. Describing the extent and intensity of DCI symptoms as: degree and type of pain, inability to move or coordinate, walking difficulty, balance or urination problems, and dyspnoea (level of consciousness deterioration). Grade the symptoms with the following terms; mild, moderate, massive and severe.
3- The organ systems affected. (Musculoskeletal - CNS - inner ear - circulatory - respiratory systems).
4- The change of symptoms with time. (Evolution).

There are three degrees (catagories) of urgency based on onset and severity of symptoms, organ systems involved and time course. They are defined as:
-Category A (Emergent) in which all available resources should be mobilized to ensure that recompression treatment will be obtained as fast as possible (do not waste time for examination or proper diagnosis).
-Category B (Urgent) in which the patient will need treatment (recompression) as soon as it can be arranged, (not an extreme emergency).
-Category C (Timely) in which symptoms are not obvious without detailed examination and the hyperbaric physician can make the decision to delay or abort the treatment of a patient in this category.

In water recompression should never be attempted (even if the victim is fully conscious and equipped with an oxygen rebreather having a full face mask) because of the following reasons:
1. The signs and symptoms of DCI are unpredictable as usually bubbles take time to develop and other serious manifestations can happen under water that can lead to serious complications.
2. Lack of proper medical attendance under water.
3. Recompression tables require a huge stock of different breathing gases and take long periods of time which can never be satisfactorily and safely achieved under water.

The approach to a diving casualty that needs chamber recompression has 3 views:
1. Recompress to a pressure (depth) similar to the depth of the original dive and decompress according to the time of exposure of that dive (old French technique).
2. Recompress to a depth that produces a clinically acceptable improvement (Australian technique), or recompress to the depth of relief +1 atmosphere and then decompress according to special tables.
The above 2 methods are not satisfactory because the choice of treatment tables will depend upon a lot of variables, which makes it confusing even for a skilful supervisor since a different table for each individual case should be worked out.
3. Recompress to a predetermined fixed depth, i.e. according to standard recompression treatment tables.

These tables are scientifically developed taking in consideration bubble physics as well as the effect of gases under pressure, and are now most accepted by different organizations worldwide.

A lot of gases were utilized in the development of such tables including Air, Oxygen, Heliox (Helium + Oxygen), Nitrox (Air + Oxygen) and Trimix (Helium + Nitrogen + Oxygen) or (Helium + Hydrogen + Oxygen). The advantages of using these tables are:
1. They have a relatively high cure rate (up to 90% when the elapsed time before recompression is relatively short).
2. They enable the average operator to easily decide which tables to use according to the severity of symptoms, prognosis and recurrence during the different stages of treatment, (by following given Flow Charts).
3. They require a chamber of a maximum working pressure of 6 ATA, which is relatively low, compared to other tables needed to carry out other higher pressure treatment.

Which tables to choose?
This will depend entirely on:
*The diagnosis. (Is it Type I DCS, Type II DCS, Type III DCS or AGE?)
*The initial evaluation. (Severity and Urgency)
*How much time has already elapsed before getting into the chamber?
*Any change of clinical picture on normobaric oxygen breathing.
*Response of the patient to chamber treatment stages, (Recompression, Oxygen breathing and Decompression). Symptoms can improve, remain stable, progress or even deteriorate during the course of the treatment.
Once the treatment table has been chosen, treatment is conducted by carrying out recompression and decompression procedures specified in this chosen table including times and rates of ascent and descent.

A flow chart is given to provide a systematic method for selection, activation and extension of each individual table, and procedures to take in case of complications or relapses during or after the treatment.

The inside tender(s) who wish to leave the chamber whilst carrying out the treatment for the victim should be decompressed on air or oxygen in the outer (transfer) lock of the chamber all the way back to the surface using Standard Air Decompression tables or Surface Decompression tables using oxygen, (bear in mind their residual nitrogen from previous in-water or in-chamber exposures).

Followup HBO treatment
Some cases of serious DCI will require further treatment in the chamber in the form of Hyperbaric Oxygen (HBO) sessions until full recovery, or reaching a plateau in their response to HBO treatment.
CNS O2 toxicity in HBO treatment is rare because all treatments are carried out at pressures below 2.8 ATA and the duration of a single treatment seldom exceeds 3 hours. Factors that increase the incidence of CNS O2 toxicity and CO2 retention are normally not encountered inside the chamber.

Pulmonary O2 toxicity, (more often seen as a result of prolonged normobaric O2 exposure) should also be considered, despite most clinical findings reporting no remarkable impairment of lung functions after prolonged HBO treatment.

Diving fitness after a decompression accident:
Following DCS, unless conservative changes are made to your exposure profiles, the past is likely to be repeated - but with greater severity.

It has been shown by researchers that changes in blood composition following a decompression incident take at least 10 days to return to normal, even when the patient shows full recovery after treatment, so it seems wise to stop diving during this period.

In cases of severer DCS, the victim is asked to refrain from diving for at least 6 weeks.
If any neurological residue persists after 3 months, some authors will permit diving for short periods to a maximum of 9 meters provided that the diver's psychological and physical fitness are not impaired.
I personally think that divers should be advised to stop diving altogether because of increased susceptibility to future damage to the already damaged nervous system.

Finally, I would like to say that diving is still one of the safest sports provided that divers receive proper training, stick to good planning, maintain fitness and take all possible health precautions. You do this and I promise you that you will never have to visit a chamber.

Wishing you all safe and enjoyable diving.

By: Dr. Hossam Nasef

"Best Method" to cope with out-of-air emergencie

Dive instructors are taught to stress the importance of constantly monitoring the submersible pressure gauge and returning to the boat or the dive exit point with at least 50 bars remaining in the tank. In all beginners' training programs, divers learn the best way to avoid an out-of-air emergency is to never run out of air. While this technique is absolutely correct, divers should be trained and prepared to cope with an out of air situation since Prevention is only half the answer.

Out-of-air emergencies may well be one of the most common emergency events in sport diving. Do not underestimate it - divers do run out of air.

Why do divers run out of air? There are several causes but it comes down to this: Divers are not perfect.

Diver fault is responsible for an estimated 99% of all out of air events. Distraction, overloading and miscalculation are the main three causes of out-of-air incidents.

Distraction is perhaps the major cause of out-of-air events. In fact, it is considered as a deadly killer because it catches the diver by surprise and increases the risk of panic. Divers often become fascinated by the beautiful undersea world, lose track of time and simply forget to look at their tank pressure.

Overloading is a less frequent cause of out-of-air incidents. Excess equipment, accessories or a bulky underwater camera housing can be a start. In addition, divers can encounter heavy objects they try to drag to the dive boat or the beach. These collectibles include such items as: lost weight belt(s), or a lost anchor! Additional weight and excess drag can burn up air/gas supply in half the normal time.

Miscalculation in my personal opinion is the greatest cause of out-of-air events. It is virtually impossible for a diver to precisely plan a dive he/she has never made before. He/she may encounter strong currents, go deeper than intended, have an over-weighted belt, or fail to take the shortest way back. Any combination of these factors can contribute to a miscalculation of air consumption and therefore result in the sudden termination of the dive plan.

When a diver runs out of air, he/she has a margin of approximately 15-20 seconds to check equipment, (in case of a false alarm), make an accurate evaluation of the situation, and finally make the appropriate decision.

Controlled Emergency Swimming Ascent. This will not allow the luxury of a safety stop or a required decompression stop. So if you are not thrilled by the idea of a solo ascent from deeper depths, you should take all necessary measures to prevent running out-of-air.

Most experts agree that the chances of screw-ups are dramatically reduced if you can solve a problem yourself. However, CESA is one of the most controversial self rescue methods used today. The inherent risk of air embolism puts the method in hot debate. Therefore, many modifications have been introduced to the method over the years.

Today divers are taught to retain the regulator in the mouth while swimming slowly upwards towards the surface. It is my personal opinion that it is desirable to make a direct ascent to the surface under your own power, keeping the regulator in your mouth and continuously exhaling slowly. Students are always astonished how long they can slowly exhale even when saying a continuous ‘Aaaaah’, sound all the way up to the surface.

I often tell my students during the exercise briefing that each one of them would feel he/she is one of the greatest opera sopranos of the world! In addition, you will probably get a couple of breaths on the way up as the ambient pressure on the hoses is reduced during the ascent.

Although most training agencies today agree that the advantages of CESA far outweigh the risks, most divers are so well conditioned to seek help from their buddy underwater even if they run out of air even and are only a few meters deep! The obvious solution never occurs to them.

Independent Backup Reserves. The use of pony bottles or a ‘Spare Air’ are perhaps a safer, more dependable alternative since they allow you to make an entirely independent self rescue. The disadvantages can be summarized in three main points:

They are expensive, bulky and add extra weight to your scuba gear. In addition, out-of-air situations will happen only when you do not carry them along in your dives, Murphy's Law!

Octopus Ascent is today considered the most desirable option for air sharing in any out-of-air situation. It is a quick, simple and easy method of sharing air with your dive buddy while making a normal ascent to the surface. However, octopus ascents require the help of a dive buddy who not only has to be within reach in the proper time, but also has sufficient air supply to support the two divers.

Buddy Breathing is so far down in the list of preferences that it has been relegated to a vanishing art. However, given no other alternatives, it can get you back to the surface if both divers are skilled in its practice. Unfortunately, the record of double fatalities for divers engaged in buddy breathing is relatively high. The reality is that the skill is difficult to master for most student divers and then quickly lost unless practiced often in the field.

Buoyant Ascent is probably the most uncommon and most forgotten way of self rescue, often ignored when should be done and unfortunately practiced when it should not! Although it is not intended here to go into the details of the technique, it is clear that alot of training and practice are the only way to master such a skill. One can summarize the technique as follows:
Taking off the weight belt at depth allows a quick start of the ascent, letting the expanding air out from your BCD and flaring your body to a horizontal position are two ways to slow done the ascent rate as needed. Looking up to see the water surface (if you are in the clear Red Sea), and exhaling all the way up are ways to prevent lung overexpansion.

Which method is best to cope with an out-of-air situation? Honestly, there is no such thing as the "best method" for self rescue. Each has been time tested and proven to save lives. Each offer advantages under certain circumstances.

The important issue is that every diver should be responsible, and take all measures to prevent an out-of-air incident. Nevertheless, every diver should be fully trained and proficient in all self rescue methods available.

We should not argue about the theoretical advantages of one method over another, this would not help solving the problem when it comes. I believe that the more you know the better chances you have.

If you did not obtain training (during your basic class) in all available methods of self rescue, you better learn about them now. This is especially true if you are not aware of the latest techniques of my personal favourite one: Controlled Emergency Swimming Ascent (CESA). Remember that you can achieve safety through education. So when you are down there facing a situation, take a second to work out the "best method".
Safe diving.

By: Zeyad M. El Bassel
NAUI Course Director

Why Dive the Southern Red Sea?

Sharks, Dolphins, Mantas, Jacks, Nudibranchs and Clownfish, the list goes on and on. If you are after variety then The Southern Red Sea is the place to be. Underwater nature is forever changing with the seasons; it is a spectacular, full of surprises, unforgettable image.

Where is the South? Where does it start and where does it finish? Over the last few years, a coastline of hotels and hotel construction has been developing, appearing out of the desert, marching south, towards Sudan. The hotels and numerous liveaboards have made Fury Shoal, the Marine parks of Zabargad and Rocky Islands, plus St.John's Reef, close to the Sudanese border, trendy and accessible places to dive.

The Egyptian Red Sea has been divided up into three main areas; The North (north of Hurghada), The Brothers (including dives around Hurghada, Safaga and Marsa Alam) and The South (Marsa Alam and beyond). To see all the wonders of the Southern Red Sea you need more than a two week holiday, so plan a few visits at different times of the year and you will see The South in its true glory. It has so many secrets to reveal; take your time and let nature show you the quality, not just the quantity of what waits below the surface.
That's why I love to dive the Southern Red Sea, and that's what I search to find and share with our divers.

The dive sites themselves vary greatly, from big walls that drop away below you, to coral gardens with feasts of colour, tunnels and caves to explore, then plateaus and pinnacles to visit. In the Red Sea, like the rest of the world, the weather patterns have been changing over the past few years. August and BECOME A STATISTIC.

September remain the hottest months with the warm winds, providing some cooling moments. Summer and autumn remain the most popular times to come on holiday, so if it is fish watching that you are after, not people watching, then you should try a different time of the year, the variety in nature is still there; you just need to team up with a good boat, experienced crew and professional dive guide to take you.

Those of you who are new to the idea of treating themselves to a liveaboard safari, it's now time for you to experience this enjoyable way to live on the sea.

Liveaboard life gives you more time to relax between dives and can take you to places out of normal reach. Life on board falls into to regular routine, often starting early with a dive before breakfast! The pattern of “dive, eat, and relax” is soon established and enjoyed. Evenings are spent reviewing the day's events, reading, watching films, playing games or just partying.

Then the next day you could find
yourself hanging out on the walls, watching the mesmerizing view of the deep blue around and below you, waiting with your buddies to be the first to spot the white belly of a Hammerhead cruising sideways along the reef walls, then those signals of joy before checking again in the blue for another possible surprise sighting.

In the afternoon explore the reef, with its variety of corals, overhangs, caves and coral gardens. Take your time to stop, watch and wait. There is a lot of satisfaction gained searching for a camouflaged scorpion or stone fish and succeeding in your challenge.

The Southern Red Sea brings plenty of great moments to remember, you just never know what's next. In the New Year we were diving on St. John's Reef. On the second day we did an 11a.m dive on Shaab Mahrous, a big wall dive site (80m plus deep). We were dropped by zodiac on the north side and followed the reef round and back to the boat.
Fifteen minutes into the dive we could hear ultrasound squeaks and looked up to see a mother dolphin with her baby playing above us.
Mum had a fish in her mouth and was showing her baby how to deal with the two silver tip sharks that were following them! She was happily dropping the fish then picking it up again swimming in circles, all the time being shadowed by the frustrated sharks. It was stunning to watch nature at work. We already assumed that it would be the best dive of the trip, all of us cheering to each other underwater.

However, if we had not been looking around us we would have missed the 5m Manta that cruised past below us! A reminder to all divers, never think you have seen it all! Time to finish the safety stop and head on back to the boat.

People often think that being last in or out of the water is bad and that you do not get to see anything........well...... the last two people surfaced ten minutes after the rest of our group in awe of what they had just been part of.... as they had swum back to the safety line, a swirling shoal of sardines appeared from the deep, surrounding the pair as they moved carefully towards them to get pictures. Suddenly, they were engulfed in the bait ball with six silver tip sharks darting past them feeding! You never know what you will see, and when you will see it!

If you are looking for peace and tranquillity, photo paradise, adrenaline rush and adventure its here, 365 days of the year, Why not put a date in your diary now, and make 2004 your year to come to the Southern Red Sea.

Red Sea Healing Sands

Researchers have discovered that the health benefits of a Red Sea holiday can go beyond rest, relaxation and recreation.
While the typical tourist chooses to come to the Red Sea based on its triple "s" combo of sun, sea, and sand, an increasing number of both Egyptian and foreign holiday makers are coming in search of better health.

Several forward thinking doctors have been researching the specific health effects of the natural resources of certain areas of Egypt for close to a decade, and their results have put specific locations of Egypt on the map of the burgeoning climactic therapy map. It seems that the small town of Safaga, for one, on Egypt's Red Sea coast, is in the healing zone.
What is climatic therapy? It is officially defined as a treatment combining the natural elements of a specific geographic location. Researchers have looked into the specific effects of factors like altitude, atmospheric pressure, humidity, percentages of airborne particulate matter, ionic ratios, soil composition, temperature, and strength of ultraviolet rays on various health conditions from respiration difficulties to rheumatism. And they've found that climate, and geography, make a difference that can be measured. Climatic therapy is particularly popular in Germany, with a website devoted to German resorts offering climatic therapy boasting close to 100 listings.

Sun, Sea, Sand…and Spas
The term climatic therapy may be relatively new, but the idea of pilgrims searching for healing rays or waters certainly is not. For at least a millennium, people from all corners of the earth have been "taking the waters" at various ancient spas with their natural springs and mineral pools and mud baths.

Medical tourism or travel medicine is an established industry, and in fact, climatic therapy falls under this category. The black mud of the Dead Sea is currently enjoying a revival of its reputation for alleviating the pain of arthritis. Specially rigged cruise ships and resorts providing top notch kidney dialysis and professional medical services to kidney-impaired tourists are proving popular; and the first of this kind of center in Egypt recently opened in Sharm el Sheikh, operated by the Egyptian Medical Services company.
Similarly, the spa industry in general is gaining momentum, and every resort is anxious to offer unique spa packages complete with "alternative" approaches ranging from aromatherapy to Ayruveda. At the Steinenberger Golf Resort in the Red Sea town of El Gouna, there is talk of expanding their already deluxe spa facilities to offer a complete week long package for the tag-along spouses of golf fanatics, including day trips to a deserted island for hot sand treatments. Down the path, the Three Corners Rihana Resort in El Gouna offers colour and light therapy, painting healing colours or beaming finely-tuned coloured laser lights on a patient's trouble spots. At the Menaville Resort in the climatically blessed town of Safaga itself, clients of the Czech Republic based Karlovy Vary spa can shape their muscles via an electric myostimulator, neutralize their pain with ultrasound, and stimulate their circulation via an underwater jet massage.

But because of Menaville's location, the management is able to offer their guests something even more enticing, something that can make even the most reluctant traveler rethink their vacation plans: a cure for psoriasis and rheumatoid arthritis.
The Menaville Story A bold claim? Perhaps.

Legend has it that the Pharoaonic ruler Queen Hatshepsut herself suffered from psoriasis, and that she used to travel from Luxor to Safaga for treatment. But more important are the studies that back it up. Menaville was the first major resort to open in Safaga, and as a result has a prime location with a large sandy beach along Safaga's sheltered bay. As the guests began to flow in, many of them noticed an appreciable improvement in their rheumatoid arthritis, a condition causing painful inflammation of the joints, or psoriasis, a skin affliction characterized by irritating patches of inflamed and flaking skin. Management took an interest, and alerted the Ministry of Scientific Research, who delegated the National Research Center to research the phenomenon. In 1993, two separate but simultaneous studies were conducted on the climatic effects of Safaga on both psoriasis, and rheumatoid arthritis.
The initial field survey revealed that the incidence of both conditions in the Safaga area were well below international averages. For psoriasis, it was .014% compared to an international average of 1%, and for Psoriasis, it was .008% compared to an international average of 1-3%. Over a hundred rheumatoid arthritis patients were selected to participate in that study, and the psoriasis study included 80 cases.
In both studies, after an evaluation to determine baseline disease conditions, patients spent four weeks in Safaga under medical supervision undergoing climatic therapy. For cases of rheumatism, treatment consists of being covered by local grey sand warmed by the sun twice daily, followed by gentle walking. For psoriasis, the therapy involves exposure to sun and immersion in seawater twice daily.
The results, announced to an international audience in 1994, were dramatic. Of the rheumatism cases, 14% showed complete remission by the end of the 4 weeks, while close to 60% showed dramatic improvement. The rest showed moderate to marked improvement, with only 6% showing slight or no improvement. Of the control group who were placed in an area in Egypt with similar weather, but who did not undergo sand sessions or have the benefit of other possible contributing factors present in Safaga, there were no cases of total remission, and only 5% showed dramatic improvement. After six months, follow-up studies with the patients confirmed the positive results, with improvement persisting in 45% percent of the patients, as opposed to just 25% in the control group.
For the psoriasis study, the positive results were even greater, with more than 50% of the patients undergoing treatment experiencing a total clearing up of their condition that was sustained in the 3 month followup. A full 27% showed sustained excellent improvement with very little deterioration observed at follow up.

Skeptics may point to the obvious: modern medicine already recognizes the age old folk wisdom that encourages arthritis sufferers to seek dry heat and avoid cold and damp; and it doesn't get much drier or hotter than the sands of Egypt. It is also known that ultraviolet light and mineral salts added to water both alleviate psoriasis, so it is no surprise that a controlled regime of sunlight cured. But there are contributing factors in the environment of Safaga that magnify the results.

The secret of Safaga
For one thing, there's something in those grey sands. Analysis shows that the sand collected from the tidal areas contains three radioactive elements in trace amounts: uranium, thorium, and potassium 40. Ancient volcanic craters at the bottom of the Red Sea point at the source of these elements. High salt and mineral concentrations found in the sand have also been found to play a role in its therapeutic qualities. But anecdotal evidence seems to suggest that the sand only works in Safaga. According to Dr. Medhat Abdel Hakim, director of the climatic therapy clinic at Menaville, a center in Aswan once collected some of the special Safaga sands to use it to treat patients there, but the results didn't measure up.

Similarly, the Red Sea, already characterized by a high salt content, is up to 35% more saline than the global average in the gulf of Safaga, which affects the equilibrium of the skin via the altered flow of ions. This may in turn allow certain gasses or other chemical components to penetrate into the body that may contribute to a healing effect.

Other factors present in Safaga that are thought to contribute to the healing climate effects include the nearby mountains that act as a natural barrier to harsh winds, cutting down on dust levels, which means that more

ultraviolet light penetrates through the atmosphere. In addition, the level of ultraviolet light is intensified by the calm, clear waters found in the bays of Safaga and also by the wide expanses of reflective sand on the beaches.
But, as Menaville General Manager Faisal Negm was quick to point out, the psychological factor of creating the right social atmosphere for relaxation and healing cannot be discounted. For the psoriasis patient in particular, psychological status is known to be an influencing condition. "We have clients that have been horribly limited socially because of their illness. When they come here, they find a welcoming community with people who understand their condition. As they get better, more of their personality comes out, and they feel a happiness here that keeps them coming back," he explained.

Where the environment takes care of business
Repeat business is always a bonus in the competitive travel industry. Offering the tourist a good time on the shores of the Red Sea and cultural excursions to local historical monuments is usually only good for a one time sale. But offering long term relief for a painful condition that affects the quality of their lives on a daily basis is a pretty good incentive for a return visit, and it's one that climatotherapy clinics like the one at Menaville are banking on.

Dr. Medhat reports that his clinic has upwards of a thousand patients a year. Of those, many are Egyptians who may or may not choose to stay at the resort as well as visit the clinic for treatment, but international patients, in particular from Germany, are on the rise, particularly second or third time patients. According to Tarek Adhan, Managing Director Mena for Resorts and Hotels, the Kuwaiti ministry of health regularly sends Kuwaiti citizens to Safaga for treatment.

The Dead Sea is Safaga's closest competitor, but it has a drawback of being the lowest point on earth, and people with certain physical conditions such as arteriosclerosis, high blood pressure, tuberculosis, kidney or liver disease, hemorrhea, or nerve diseases may suffer negative effects at 400 meters below sea level.

The water of the Dead Sea also contains higher levels of Bromine, a substance that causes skin sensitivity and allergic outbreaks in some people. With proper marketing and worldwide recognition, the Red Sea may be able to cash in on the already popular Dead Sea medical tourism market because of these differences.
Tarek Adham has a different approach, "I'd like to see the tourism industry in this area start thinking about the environment as an ally, something that can contribute to your profits," he said. "Most people in the industry seem to think that the environment is something you have to be careful not to hurt because of laws and regulations, a burden to take care of and protect. But there are direct benefits from working in harmony with the natural elements of an area, it is not just a responsibility to endure, the environment will also take care of you."

By: Diana Boeke

Red Sea Shells

Few are the people who know that regardless of what type they are, shells serve the same purpose all around the world: they clean out impurities and make the water cleaner. In this sense we can say that shells do a lot more good living than as an ashtray or a side lamp in the corner of a restaurant.

Shell shapes often have more than one purpose. Some are streamlined to make burrowing through mud or sand easier. Some bivalves are heavily ridged to help them stay anchored. Still other shells grow long spines to catch seaweed and coral for camouflage. Mollusks are the scientific name of the soft bodied creatures that make their shells from calcium they get from either their food or the water they dwell in. When a tiny mollusk hatches from its egg, it comes into the world a homeowner: a tiny shell that grows with it as it grows. Each different species of mollusk makes a shell that's unique. Within a species, there can be distinct differences in shells. Things like food, climate, environment and genetics all play a part in making each shell somewhat different in size, colour, or shape.
Shell trade has been banned in many countries around the world. Law Number 102 for preserving the Egyptian Environment in article # 2 states: Damaging or removing any living organisms or natural features and resources, such as shells, corals, rocks, or soil for any purpose is forbidden. HE the Governor of the Red Sea has issued a local decree regarding the same subject which prohibits selling, buying and trafficking shells within the boundaries of the Red Sea Governorate. Some tourists and visitors are not aware of the fact that carrying shells in their suit cases while traveling back to their countries can lead to unnecessary delay and inconveniences. Confiscating the shells would be the minimum action taken against them by the airport police.

As a tourist or as a resident in the Red Sea you might encounter shells or stuffed marine animals displayed on the pavements. If you admire the beauties and the natural resources of the Red Sea then it would be your obligation to express your discontent to the person who is committing such a violation. Furthermore, you could assist in stopping this illegal trade by notifying the Rangers of the Red Sea by calling them on # 548339.

Most divers have collected some shells at a certain time in their past and this is a fact that is hard to deny. In the last few years, and after learning the negative aspects of such actions a lot of divers are becoming environmentally aware. Most of the dive training organizations are educating the new generation of divers about the environment and how to preserve the natural resources. Personally, and since I used to work for an environmental NGO, I cannot but pull over the car upon seeing any of the shell sellers and take all that they display and hand it to the Rangers.
What you see in the picture is what has been collected by an individual from the streets of Hurghada during the past two months. I believe it is up to you and me to stop or even assist in stopping this negative trade. If however nothing is done and shell sellers are left in the streets, we will all be speaking about the beautiful shells that we used to see while diving in the Red Sea and this is a very real possibility.

Though some of the Red Sea Shells are now hard to see underwater and they are nearly extinct, the situation now is way better than what it used to be 6 or 7 years ago. For those who do not know, there used to be specialized shops in the Red Sea that sold shells and stuffed marine life. Thanks to the laws and the support of both the local government and caring individuals this has stopped.

This is a call for you all to assist in stopping this trade by reporting the violators in order to preserve the natural resources of the Red Sea.

By: Hesham Tomoum

What is Coral?

What we commonly call corals includes a variety of types of organisms that biologists refer to as coelenterates or cnidarians. One of the main physical characteristics of this group is that they all have a single body cavity and opening, a coelenteron, that doubles both for the ingestion of food and for the release of digested wastes.

Another characteristic is that corals and other coelenterates have stinging cells, or nematocysts, that are normally carried within special cells on the animal's surface. When potential food prey is present in the water, the coral ejects these stinging cells to entangle or poison the prey, which the coral can then consume.

Although the term "coral" is often used in a general sense, it usually refers to reef or hard corals, which are more formally called scleractinians.

These are the corals that may form large coral heads and which are the primary building blocks of coral reefs in tropical oceans.
The common characteristic of this group is the secretion of a basal skeleton of calcium carbonate as the mineral aragonite.

The livng portion of this group usually has its radial symmetry divided into multtiples of six, which is most apparent in the numbers of tentacles that surround each polyp. This pattern is also shown in the pattern of the calyx, (plural=calyces) or cup, which is secreted by each polyp, and which remains after the live tissue is cleaned from a coral skeleton.

Each calyx is divided by a number of septa, again usually in multiples of six, which look like sharp ridges radiating from the center of the calyx.

In life, however, this coral shows the white colouration of its polyps and feathery tentacles, which resemble thousands of small white flowers.
The term "corals" often includes other varieties of coelenterates that have somewhat different characteristics than scleractinian corals.

The largest of these groups are the octocorals which includes both hard and soft forms and the gorgonians or horny corals. Their common characteristic is that, instead of being in multiples of six like the hard corals, the structures of their polyps, such as tentacles, grow in multiples of eight. The tentacles of these octocoral polyps are pinnate or feather-like.

The most common hard octocoral is the organ pipe coral, which grows from a deep red skeleton which is formed by parallel rows of tubes. In life, however, this coral shows the white coloration of its polyps and feathery tentacles, which resemble thousands of small white flowers.

The soft octocorals have many features in common with the hard corals. Most grow as upwardly facing polyps, contain symbiotic zooxanthellae and have tentacles and nematocysts that may be used in food capture. The primary difference is that the soft corals do not lay down an external hard skeleton that remains as a permanent structure after the coral dies.

Instead, the soft corals get their structure and body support from calcium carbonate spicules that are deposited within their body walls. These corals may look like quite drab leather-like gray-green sheets on the reef surface, or they can be very colorful and beautiful, such as the dendronepthid or ‘teddy bear’ corals which have a crown of red to orange tentacles on a translucent white stalk.

A reef coral can be a single polyp and calyx, but in most cases reef corals grow as colonies with hundreds, even thousands of polyps and calyces on the same coral skeleton. The variety of forms that are created by this colonial growth make up some of the most beautiful structures to be found in nature. These structures can range from delicate, branching bushes and arbors, to robust tables, intricate flower-like leaves, multiple starbursts, branching fingers and massive boulders that have brain-Iike fissures on their surface. The variety of shapes is determined by the pattern of budding of new polyps from older polyps as the coral grows, and whether the polyps become separated or continue to share a common mouth within the original ring of tentacles.

The calcium carbonate skeleton also varies substantially in density and strength according to the coral species. Some corals have very dense skeletons and can resist a great deal of wave disturbance, while others are light and porous and are restricted to the calm waters of embayments. However, these porous corals have the advantage of having faster growth rates and may have live tissue penetrating the coral skeleton. This tissue within the skeleton gives these corals a greater ability to recover from stresses which may kill off the coral surface tissue.

Because of their flower-like appearance, corals were classically referred to as "zoophytes", indicating that they were recognized as animals, but had many external characteristics of plants in their patterns of growth. Now we know that this original descriptive term was quite valid, but for a different reason.

Coral biologists have long recognized that all hard corals with rapid growth rates contain massive numbers of single celled algae called zooxanthellae within the cells of the coral tissue. These algal cells appear under the microscope as yellowish-brown spheres, and they are extremely abundant in the coral tissue, normally numbering millions of cells per square centimeter of coral surface.
The zooxanthellae provide the major colouration of most living hard corals and many soft corals, which usually appears as shades of brown or green. The actual functional relationship of these internal algae to the coral has been studied intensively and was a subject of controversy for many years. Coral biologists always recognized that the presence of the intracellular algae was necessary for hard corals to achieve the rapid growth rates which enable them to reach massive sizes and form coral reefs. Most non-reef forming or solitary corals, although they have similar calcium carbonate skeletons, do not contain zooxanthellae and do not grow to large sizes.

The question remained as to how the association between the corals and their zooxanthellae might aid or benefit either of the partners? When rapid growth occurs, an animal produces metabolic carbon, phosphorus and nitrogen wastes that must be removed or they will poison the growth process. Corals, being very simple organisms, have no specialized structures for such waste removal. However, the abundant zooxanthellae within the coral tissue provide a mechanism for removing wastes and therefore permit rapid coral growth. The waste products produced by the coral tissue are the raw materials used for photosynthesis by the zooxanthellae and thus are kept from rising to toxic concentrations.

The zooxanthellae, on the other hand, benefit by having a ready supply of nutrients for photosynthesis. This is an example of what is termed mutualistic symbiosis, where both partners benefit from being joined in a close association.

By: Mohamed Habib

Hurghada Dive Site - Red Sea - Egypt

The area either side of the Straits of Gubal is mainly the preserve of liveaboards. Flanked in the west by the islands of Gubal and Shedwan and in the east by the reef systems of Shab Ali and Shab Mahmoud, it is normally well beyond the day boat range of either Sharm El Sheikh or Hurghada. However, some boats do make the day trip from Sharm to reach the world famous wreck of the Thistlegorm, taking approximately 12-14 hours in total. Crossing the straits can be rough and sometimes downright impossible in all but the largest ships. The areas around Shedwan Island are closed to diving as this is a military area.

Shab El Erg
The most northerly site for day boats out of Hurghada. A huge horseshoe shaped reef offering many dive sites on all sides. The north point can be home to Mantas in season. The lagoon is dotted with ergs and is renowned for sightings of the resident dolphin community, divers have previously spent up to 30 minutes with dolphins here.

Gota Shab El Erg
Nearby is a little known site but well worth a visit. The whole area teems with life, unicorns, scorpion fish, groupers, morays, emperor angel fish, blue spotted rays and underneath the table corals look out for white tips resting in the sand. In the sandy channel between the main reef and the gota you will find cone shells, and flatfish.

Shab Abu Nugar
This “T” shaped reef has a shallow plateau to the west with numerous small ergs and two small sub reefs Gota Abu Nigar and Shab Iris. Some parts of this reef system are positively dull while others are stunning. If you can dive the stem of the “T” on the north side you will find three small ergs and the diving there is almost virginal. You will find broom tail wrasse here as well as parrot fish and unicorn fish.

Umm Gammar (27°21.155’N, 33°54.550’E)
This offshore Island is surrounded by good diving on all sides. The south end has a shallow plateau where the moorings are positioned, this location is the most used. For first timers at Umm Gamar the dive will take place from the plateau, moving eastwards to the drop off then north along the wall. After a short swim against the current you reach three pinnacles close together, chimneys reach through the pinnacles toward the surface. After exploring this area you take advantage of the light current to drift back to the corner of the plateau where three small ergs are found, covered in glass fish. Finish the dive on the plateau exploring the numerous coral heads and reef fish. The plateau is home to Napoleons, Emperor Angels and free swimming Morays. The east and west side have awesome drift dives and the northern tip or "halg" has a magnificent coral garden but is only accessible in very good weather. Big groupers and lots of sweepers live in the multiple caves found along the eastern and western walls and drop offs of this tiny island's fringing reef.

Shaab Ruhr Umm Gamar (27°11.550’N, 33°54.550’E)
Literally the reef of Umm Gamar, this reef lies 1km south of Umm Gamar and is the tip of an undersea mountain. The reef wall drops to around 15m on the west side, and is peppered with many caves and overhangs, home for sweepers and glass fish, here the sandy plateau slopes away gently to 30m with the drop off beyond. On the east side the slope is much steeper and drops quickly to the depths, the diving here is superb and can be most often done as a drift. This whole area offers superb wall diving with possibilities of encountering grey reef sharks and good-sized groupers as well as morays, big tuna, and blue spotted rays. On the south east slope lies the wreck of an Egyptian patrol boat which is well worth a visit.

Careless Reef (27°18.700’N, 33°56.200’E)
An offshore reef Careless has two large ergs rising from a shallow plateau surrounded by sheer walls rising from the deep. The area is unprotected and the reef can only be reached in good weather. The current at the surface is usually from the north but below it can come from any direction. To the north, the drop off is a forest of coral and to the south the plateau slopes gently away with small pinnacles of coral. The whole area swarms with fish of all types, there are numerous giant morays encountered here, white tip reef sharks and schooling reef fish as well as huge groupers and the occasional hammerhead in the early morning.

Torfa Fanus (East)
This narrow reef creates a huge calm lagoon, a great place to stop for lunch and catch the sun before the second dive of the day.  The lagoon itself and the enclosing reef wall is relatively uninteresting and naturally lifeless but on the seaward side the area bursts with all manner of sea creatures. Swim through the gap between the first erg and the reef wall and head across the coral garden to the second erg, home to hordes of glass fish and the very occasional frog fish. Continue with the reef wall on your left to see the gorgonians on the corner of the reef where it turns west, if you have enough air continue along the north face where the corals are pristine, if not return with the reef on your right and explore the first erg before returning to the boat. Dolphins are often encountered anywhere around this reef so keep an eye out.

Fanus West
The other end (west) of the Fanus reef has two main ergs and several smaller pinnacles off its western end. You can follow the reef wall round and explore the reef face and coral gardens which is full of marauding jacks. Or if you feel energetic you can swim the 50m to the furthest erg which is well worth a visit, explore the remaining erg and pinnacles on the way back. Again watch out for dolphins at anytime during the dive as they can be frequent visitors.

Wreck of the El Minya (Harbour Wreck)
An Egyptian minesweeper sunk by Israeli fighters while lying at anchor in 1969, this wreck lies in 30m on a rock sea bed. The current here can be strong from the north and the visibility poor. There is a large debris field which contains a lot of 'LIVE" munitions, worth a look, but carefully. The wreck is only 70m long so there is plenty of time to explore everything including the blast hole on the starboard side, which can be penetrated. Penetration is not recommended elsewhere on this wreck. There is not much in the way of coral growth on the wreck but it does have its resident fish life. The blast hole gives shelter to shoals of glassfish and a lone anemone and resident clownfish are also in this area. Above the wreck are shoals of jacks and small barracuda.

Umm Dom (Stoney Beach)
Here the steep cliff of the north east side of Giftun Kebira island plunges into the depths and continues into the abyss, the reef wall drops to about 12m and then there is a steep, tumbling slope to the top of the drop off at about 27m. Most of the life here is above 15m as the lower slope and top of the drop off are sometimes swept by strong currents coming through the straits, stunting the growth of the coral and giving a lunar appearance. Half way down the slope you will find a lettuce leaf coral, in the blue you will find fusiliers, and triggers along with maybe sharks and turtles. At the top of the slope you will find morays, scorpion fish, barracuda and clouds of antheas. Whale sharks have been spotted at this site on occasions.

Shab Sabrina
The reef here pokes out from the eastern side of Giftun Kebira island and has a coral garden extending 300-400m north of it. The best way to dive this site is on the drift, dropping 300m out and using the gentle current to make your way back to the boat mooring. This area is known for its beautiful coral landscape rather than its fish life.

Small Giftun (27°11.030’N, 33°58.530’E)
With the current carrying you, this dive is a relaxing exploration along a magnificent wall, where you can 'fly over' extensive stretches of large fan corals and if you look out into the blue it's not uncommon to see large tunas and trevallies. The dive leads to a sandy plateau dotted with numerous coral formations. Here it is common to see turtles, moray eels, crocodilefish and spotted stingrays, as well as schooling fusiliers and goatfish. Often done as a drift dive but can also be done as a normal dive where the boat is moored up. An excellent site for technical diving and courses.

Abu Ramada Island (27°09.784’N, 33°59.046’E)
Really two small islands surrounded by a single reef. Good drift dive along the steep eastern wall, with big fan corals, overhangs and swim throughs. Big groupers.

Gota Abu Ramada (27°08.340’N, 33°57.196’E)
This area is commonly known as 'the Aquarium' due to the wealth of marine life. There is an abundance of hard and soft coral and schools of butterfly fish, banner fish, snappers and goatfish are found swimming around the mountains of coral gardens. You will find that dives at Gota will make you feel like you are swimming in a marvelous natural fish tank!

El Aruk Gigi
A cluster of a seven ergs laying in 10m - 15m of water. The whole area is home to sweetlips under the ledges, blue spotted sting rays in the sandy patches and glassfish and anthia fish swarm on the erg wall. One erg to note is the split erg, which has a grotto through it filled with glassfish, attendant red mouth grouper and numerous lionfish.

Ras Disha
The fringing reef, which surrounds this cape, offers a good shallow dive on the hard coral garden found north of the lighthouse with schooling barracuda, napoleon fish and groupers. Garden eels.

Abu Hashish
A shallow erg field lays on the south side of the island where lots of blue spotted stingrays, puffer fishes and morays are found swimming through a pinnacle landscape. A dramatic drift dive can be made along the eastern wall with the chance to see big fish out in the blue.

Safaga Dive Site - Red Sea - Egypt

The area around Soma Bay/ Safaga has some great diving close to the mainland as well as offshore in the areas of Panorama Reef, Middle Reef and Abu Kafan. Some divers say these equal the great sites of Ras Mohammed and Careless Reef. The whole area is protected and the same rules apply as elsewhere so please follow them.

Sha'ab Saiman
Hard coral reef running parallel to the shore, separated by a narrow, sandy canyon, rises from 20-30m to 2m below the surface. Large schools of snapper, goatfish, fusiliers circle over the plateau and look out for the occasional white tip reef shark and turtle. Hard coral formations second to none in the Red Sea.

Ras Abu Soma
Fringing reef sloping gently to the drop off offers numerous quality dive sites, including the ever popular Emperor Divers House Reef. Schooling reef fish, exhibitionist octopus and resident morays, stonefish and turtles are included in the reef's attractions. Sightings of eagle rays are not uncommon and easy access from the dive centre to the water via the purpose built jetty makes this one of our most popular sites!

Tobia Arba'a
Also named the 'seven pillars' (although the Arabic name means 4!), these ergs rise from a sandy bottom and display a fascinating landscape of soft corals, glass fish and gorgonians. Giant puffer fish, blue spotted rays and octopus as well as the ubiquitous lionfish compete for attention with the local Napoleon wrasse.

Tobia Kebir
Large oblong reef with a chain of ergs stretching southwards. Emerging from a shallow sandy bottom this site offers interesting diving with schooling fish, morays and groupers and many broomtail wrasse. A dive site for all levels and interests.

Tobia Soraya
South of Tobia Kebir, run a chain of pinnacles forming a Y shape. Stingrays, trigger fish and big shoals of banner fish with gorgonians and acroporas in the background are a good build up to the swim throughs and canyons between the ergs, which this site offers.

Gamul Soraya
Very colourful dive with hovering sweetlip shoals, bannerfish and butterflyfish. Garden eels can be seen at 14m on the south side of the main reef and blue spotted sting rays and scorpion fish abound. The hard coral gardens in the shallows are stunning and the smaller ergs adjacent to the main reef offer the colour of soft corals and a good chance of seeing crocodile fish.

Panorama Reef
One of the highlights of the area. Huge coral formations with walls dropping to over 200m. Numerous grottos and overhangs, gorgonians and soft corals. Jacks, barracudas and reef sharks often visit the area. Panorama is also the home of Anemone City, ranging from 14m up to 5m over 40 Magnificent anemones offer homes to hundreds of feisty clownfish. A stunning spot for your safety stop! The north plateau is a stunning array of purple soft corals and a south bound current offers a thrilling drift!

Middle Reef
Northerly reef face slopes to 30m, then plummets vertically to much greater depths. Hard coral gardens on the east and west corners with acroporas, brain and salad coral. Fun dive on the south side through the shallow labyrinth of caves, tunnels and passages. Groupers, puffers and sweetlips.

Umm Hal Hal
Two small pinnacles covered in pristine hard and soft corals rising from 20 m depth. Often strong currents so a rare treat if conditions allow.

Fellow Rocks
Two coral mountains rising from 25m to 3m below the surface. Seldom dived due to exposure to bad weather conditions on the surface and the strong currents under the water.

Abu Kafan
Possibly the best dive in Safaga, a 300m long, narrow barrier features a 'plateau' in both north and south extremes, teeming with anthias and soft corals. Superb wall diving dropping off to over 300m with overhangs covered in soft and black coral and giant gorgonians. Frequent sightings of jacks, tuna, barracuda, reef sharks and the occasional hammerhead.

Sha'ab Sheer/Wreck of Al Khafein
A horse shoe shaped reef creates a shallow lagoon on its south side and hard coral gardens on both its east and west extremes. Porites, acroporas and fire coral in huge and splendid formations with schooling jack, snapper and tuna fish. Reef fish such as bannerfish and butterfly fish are plentiful and the occasional larger pelagic is sighted. Since November 2005 Sha'ab Sheer has become the resting place for the wreck of the Al Khafein which drifted into the north side of the reef after a fire in the engine room caused the crew to abandon ship.

Wreck of the Salem Express
A Ferry carrying pilgrims returning from Mecca, sank in 1991 after hitting the reef at night. 300 victims perished in one of the greatest marine tragedies of all time. Divers are asked to dive the wreck considerately with respect for the great loss of life and penetration of the wreck is forbidden. The propellers make an impressive sight and the covering of hard corals now colonising the wreck show the power of the ocean to make new life out of this tragedy. Fish life is now abundant and the funnels of the wreck with large "S" and the name on the bow are clearly visible. The site is reasonably sheltered and is not exposed to strong current and can be dived at all levels from 12m to 30m.

El Queseir and Brothers Dive Sites - Red Sea, Egypt

The offshore islands in this area have recently been reopened for diving after a long closure by the Egyptian Government and have been designated as a Marine Park. Now suitable moorings are installed for dive boats visiting this area. The Brothers are really the tops of two undersea mountains, these islands rise from the depths and the coral clad walls offer outstanding diving with plenty of big fish action due to their remote location some 80km offshore.
D: offered as daily diving trips from Marsa Alam
L: available during live aboard trip

 

Big Brother (L)
The northerly of the two islands and has a small lighthouse. It has two wrecks laying on its walls. At the northern most tip of the island lays a large freighter named the Namibia, the other is the Aida II, an Egyptian supply vessel that struck at night. There is excellent wall diving all along the southern side of the reef with strong currents promoting the growth of a spectacular forest of soft corals. Frequent sightings of big pelagics and an astonishing variety of marine life.

Little Brother (L)
This island is the smaller of the two as the name implies. At the northern end is a long tongue of reef that extends seaward and in good weather it is possible to drop in here and drift. The current runs from east to west and here sharks may be seen cruising. On the south east side is a superb fan coral forest but it is deep and starts at 35m, there are also plenty of caves, overhangs, black coral, and lots of pelagics including sharks, tuna, barracuda, turtles and schools of reef fish. As you round the southern corner the slope gives way to a vertical wall where you can catch a glimpse of a silver tip shark. In summer thresher sharks are seen here, in October grey reef sharks gather to mate and divers have also reported schooling hammerheads and groups of sailfish in this area. Before you know it your computer will tell you it time to head back to the boat having had the most spectacular diving.

Quei Reefs
Four reefs and a number of pinnacles lying in close proximity. Unfortunately these reefs are quite badly damaged by the crown of thorns starfish in places, but still offer some interesting diving. Often sightings of reef sharks and sometimes a passing eagle ray.

Queseir El Qadim
The bay where the Swiss hotel ‘Movenpick’ has been built is a natural harbour used previously in Roman times. Amphoras can still be seen between the hard corals at different depths. Large schools of fish, stingrays and turtle.

Erg Esel
Big blocks of mountain coral surrounding a small flat-topped reef can be circumnavigated in one dive. Clouds of goldfish engulf the reef and swimming through the sandy patches surrounding the reef white tip sharks may be found sleeping as well as turtles and barracuda’s.

Mangrove Bay
Mangrove Bay Hotel’ has been recently built next to this natural harbour, which offers a good dive on the northern corner of the fringing reef with a hard coral garden sloping gently to the deep. Large schools of unicorns, snappers, surgeons, fusiliers and barracudas.

Sharm El Quibli
Bay on the coast offers some decent diving on its northern corner, with a sloping reef covered in acroporas, fire coral and other hard corals. Lots of groupers.

Marsa Wizri
Another bay on the coast, the fringing houses large schools of yellow goat fish, unicorns, barracuda’s and other reef fish species on both north and south outer extremes.

Habili Sheik Malek
Less than one mile away from the Tomb-Mosque on the coast, a little reef formation creates a labyrinth of hard corals, fire and huge tables where lots of fish often concentrate. Napoleon, barracuda’s and eagle ray.

Ras Torombi (D,L)
Shallow dive around the northern most tip of the cape’s fringing reef, a great deal of fire coral, giant table corals scattered over a sandy bottom. Snappers, butterflies, rays and guitar sharks.

Ras Shouna (D,L)
Bay on the coast with good dives on the north and south side. Schools of bat  fish, barracuda’s and goat fish around the coral heads with glass fish which come out from the slope.

Scuba Diving: Top 5 Scuba Diving Destinations

Hi,

Just thought you might be interested in the Top 5 Scuba Diving Destinations and Must Dive sites:

Top 5 Incredible Scuba Diving Destinations

Scuba Diving in warm, tropical water is great enough, but when you combine the perfect water conditions with amazing visibility and underwater life, then you have incredible scuba diving destinations.

The following destinations for scuba diving are worth saving for and travelling to:

1. RED SEA, EGYPT – The amazing Red Sea is unforgettable. The underwater sea life is colorful, electric and diverse. The bright coral and 1000’s of colorful fish are plenty. You will run into eels, snappers, barracudas, sharks, manta rays, sea turtles, surgeonfish and much more.

Remember to Dive: The Yolanda, Ras Mohamed and SS Thistlegorm

2. AUSTRALIA – Need I say more. On one area of Australia, you have around 1,200 miles of barrier reef. On the other end of the coast lives the whale shark. You will find all types of diving conditions in Australia from tropical to temperate waters.

Remember to Dive: The Coral Sea, Kangaroo Island, Heron Island

Read more of article at Scuba Diving Solutions.com

Happy Diving!

Lilah

To obtain your 2 FREE Gifts: Special Report "Insider's Guide to Scuba Diving Gear" and Special Report "Top 10 Ways to Make Money while Scuba Diving", go to http://www.thatdivesite.com/ and sign up for the FREE Gifts.

Scuba Diving: Diving in Deep Water

Hi,

I ran into this article from the International Herald Tribune about 3 Russians who are missing while diving in the Red Sea. I thought this was an interesting article:

Egyptian official: hope dimming for finding alive 3 Russian divers ...

There were 4 divers and 1 of the divers surfaced after diving 35 m/ 90 feet and the other divers were trying to dive 90 meters.

Now that is extreme diving! Crazy diving, but extreme diving!

Happy Diving!

Lilah

To obtain your 2 FREE Gifts: Special Report "Insider's Guide to Scuba Diving Gear" and Special Report "Top 10 Ways to Make Money while Scuba Diving", go to www.scubadivingsolutions.com and sign up for the FREE Gifts.

Scuba Diving Travel: Scuba Diving in Israel

Hi,

I found this article on scuba diving in Israel. There is a video of the Coral Beach in Eilat, Israel. It is a short video that makes you want to get wet.

ISRAEL - Coral Beach scuba diving in Eilat

Happy Diving!!!

Lilah
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