FUNCTIONS OF WETLANDS AS A HABITAT FOR WILDLIFE.

By Duncan Oduor.

Wildlife has special means to live in wetlands. Many species have developed ability to live under water for food and oxygen. Clams, crustaceans, fish and many more are all restricted to life under water for all or part of their life. Water depths in wetlands are shallow and wetlands often experience periods of severe drought and many species have special mechanisms to survive the periods. Some species have common survival mechanism of drought resistant eggs that respond to quick re-flooding and short life cycles.

Mammals and birds living in wetlands also have adapted special features for living. These features enable them to feed on rich food sources found in there. Swimming, wading and diving are the most common specializations. Special flying abilities like vertical take-off by ducks, and hovering by terns, permit these birds to fly and feed in small wetland areas. Special means of perching on vertical wetland plants like reeds by some birds is common. Some birds build floating nests .Some mammals have developed means to conserve oxygen and stay under water for long periods and with special fur that keeps the skin dry and easy water shed.

Basically, a principle of ecology does not allow same species to use same environment and food source without a form of competition. Wetlands are very rich in species abundance and diversity and without direct conflict because different species have evolved to use very specific portions of wetlands. Some creatures attach their eggs to plant stems; some have nests that scoop out on the bottom, constantly fan to remove sediments, and some lay eggs only in the shallow rapids between stream pools. Others use holes in rotten trees dying on the edge of a wetland and walk their young ones to the water on their first feeding after hatching. Some species reduce conflict by using special feeding behavior .Feeding at different times of the day or night, restricted feeding to different foods or sizes of food items are also reduce conflict. Swans feed on submerged plants, geese graze on grass on the shoreline, ducks feed on the water or mud surface or dive below the surface beyond the reach of swans. Some water birds move from one type of wetland to another during different seasons or at different stages of their lives. Migratory fish, birds and eels make certain dramatic seasonal movements. Salmon and eels use riverine, estuarine and marine systems at different stages of their life cycles. Certain ducks nest on small palustine wetlands, raise their young in lacustrine systems and spend the winter in estuarine and marine ecosystems. If the wetlands in one of these systems are lost ,these animals cannot complete their life cycle even if the wetlands in other systems remain available Some water fowls nest in trees away from wetlands and only fly to wetlands to feed meaning that not only wetlands but also uplands for nesting need to be preserved.

Within the wetlands there are four major features that are critical for fish and other wildlife. Pattern of different kinds water ,vegetation and substrate, Different life forms of plants, Amount of edge between different kinds of water, vegetation and substrate,· Timing of the seasonal rise and fall of water levels.

These four features in different combinations determine how much fish and wildlife will present in a wetland and how many different kinds of species will be there. Some species require only one kind of habitat but most of them need more.The Lake Elementeita is part of these wetlands in Kenya and needs protection because of its important functions in the ecosystem.

FLAMINGOES

How many species of flamingoes do you think we have in the world? They are divided into six races as follows:

  • Phanaecopterus  ruber-American flamingo=Ph. ruber ruber,
  • Phanaecopterus  antiquorium-European or Greater flamingo=Ph. ruber ruseus,
  • Phanaecopterus  chilensis-Chilean flamingo=Ph. ruber chilensis,
  • Phanaeniconaias  minor– Lesser flamingo
  • Phanaecoparrus  andinus-Andean  flamingo
  • Phanaecoparrus   jamesi-James’s  flamingo

Only the first three can be said to be of three separate species. The species of Phanaenicopterus have bills of swallow-keeled type which only a part of inner surface of the mandibles covered with fine filtering laminae.The other three all have bills of deep-keeled type with only a part of the inner surface of the mandible covered with the filtering laminae. Birds with deep-keeled bills are adapted to feed on very small organisms as opposed to those with swallow-keeled bills that can be more extensive in their tastes and the number of laminae per centimeter varies from species to species. The number of the laminae dictates the size of food that can be grabbed on the filtering mechanism but the laminae of the Greater flamingo do not all lie in the same direction but across each other in a way that they have a different action from three other species.

By Duncan.

Varreaux’s Eagle Owl Released

It was a beatiful and memmorable day  to witness the release of  a female Varreaux’s eagle ow

(Bubo lacteus) in Soysambu Conservancy yesterday.The eagle had been  staying in the Little Owl Sancrtuary in Naivasha where the bird experts ,Sarah Higgins  and Simon took great care of her following the injuries  she got from a fight with another eagle.The bird had been surgically stitched and  toes  on one of the legs could also not open as usual.The sanctuary  was able to help  this beautiful creature for some time and it was beautiful  to watch it fly to its natural habitat where it will unite with other Varreaux’s in Soysambu.The exercise was witnessed by Lady Ann Delamere,Madam Kat Combes(CEO Soysambu Conservancy),Simon among others.

By Duncan.

Sarah Higgins with the Varreaux's eagle ready for release.

Sarah Higgins with the Varreaux's eagle ready for release.The eagle perching on accacia after the release.

GEORGE MASON UNIVERSITY STUDENTS VISITS SOYSAMBU

The Soysambu conservancy is a great place to be for conservation related activities especially  for group of students. Students from all over the world can be hosted for field activities of their studies choice. The students get to interact physically and practically involve with what they have learnt theoretically ranging from geology, Biology, Hydrology, Pedology, History and more. The fact that this place is situated right in Great Rift Valley, the interconnection of the Lake Elementaita Lake Nakuru and Lake Bogoria and the numerous biodiversity found here makes it ideal place for universities and colleges   to learn more on their fields of specialization. The Lake Elmenteita being a Ramsar Site (Wetland of International importance), Important Bird Area and now a World Heritage Site is sharing a buffer zone with the Soysambu Conservancy making it more protected and healthier for wildlife. For these reasons, we have been hosting groups and teams of students from several universities. The George Mason University has been organizing trips for its students to stay at the Soysambu Field Study Centre for  a good time and the good rapport between the two organizations has made it a sustainable project. There is currently a team of twelve university students from George Mason staying with us for field studies with instructors lead by Ryan Valdez and Carlos.We have a great time with them here as we look forward for future collaboration.

By Duncan Oduor,

Soysambu Field Study Centre.

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The GMU Dinner time.

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Livestock management talk by Mr.Benson,the Livestock manager Delamere Estates.

Talk on stonewall building.

Talk on stonewall building.

Students getting ready to set camera traps..

Students getting ready to set camera traps..

Camera traps setting with instructor Ryan inspecting.

Camera traps setting with instructor Ryan inspecting.

GMU Students distributing gifts of stationery to children in Soysambu.

GMU Students distributing gifts of stationery to children in Soysambu.

Baboon caugtht by a camera set by sudents..

Baboon caugtht by a camera set by sudents..

more baboons..

more baboons..

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WILDLIFE CONSERVATION RESEARCH.

Kenya’s human population increases fast and is currently estimated to be over 40 million. The increase in population exerts much pressure on natural resources in the whole nation resulting to environmental degradation, loss of biodiversity and climate change. All these impacts negatively on the well being of people because of the destroyed nature. Conservation research is done on biodiversity and is geared towards achieving practical solutions to issues of conservation mainly by conducting specific research. The research should be shared nationally in advising government agencies, institution and policy makers to address and protect Earth’s biodiversity. Researchers and Scientists protect the biodiversity by teaching conservation principles, practices and work to find ways of helping the citizens to be more environmentally responsible. To ensure contuinuity,the next generation of conservation professionals are recruited by the research institutions.The decline of Kenya’s biodiversity calls for sustainable use practices and new approaches to conservation methods. The is a need of new partnerships among stakeholders, biological scientists, government, industries and communities to reinforce and protect the inherent value of the biodiversity by advocating for sustainable use. Complex studies on relationships among ecosystems, biodiversity, environment and human beings are needed. Education and awareness to the general public on Earth’s biodiversity, their conservation and sustainability is vital. Conservation research is supposed to promote science-based environmental awareness, biodiversity research and sustainable use of finite natural resources. Commitment of recruiting, training and educating the next generation of conservation practitioners and fostering of environmental leadership in decision making about conservation for posterity should be a priority.The Kenyan government research institutions should closely work together with the wildlife research centres to improve the research standards of research  for the well being of current and future generations.

By Duncan Oduor