National Geographic Explorer-in-Residence and paleontologist Meave Leakey works in the remote Lake Turkana region of Kenya and Ethiopia. She, her husband, Richard, her daughter Louise, and a team of scientists have been researching fossils in the Koobi Fora area of the Lake Turkana Basin for more than 30 years. Koobi Fora is a ridge of sedimentary rock on the eastern shore of Lake Turkana, Kenya.
The Koobi Fora Research Project (KFRP), initiated in 1968, forms the backbone of the Turkana Basin Institute (TBI). Almost 10,000 fossils have been discovered in Koobi Fora, more than 350 from ancient hominin species. The investigation of the evolution of human beings and hominin relatives is the primary—although not the only—scientific goal of the KFRP.
“The continued research in the Turkana Basin will further the global understanding of human origins and the context in which it occurred through the recovery and investigation of new fossil material from deposits in northern Kenya,” according to the project’s mission statement.
Located in northern Kenya, the Turkana Basin is a 70,000-square-kilometer (27,027-square-mile) region that is home to Lake Turkana, the most saline lake in East Africa and the largest desert lake in the world. The area includes three national parks: Sibiloi National Park, South Island National Park, and Central Island National Park.
Lake Turkana, nicknamed the “Jade Sea” due to its striking color, is a major stopover for migrating waterfowl. The surrounding area is a major breeding ground for Nile crocodiles, hippopotamuses, and a range of venomous snakes.
The basin surrounding Lake Turkana is arid and receives little rainfall outside the “long rain” season of March, April, and May.
Due to the extreme climate conditions around Lake Turkana, there is a low human population in the basin. The people who live in the area are mostly small-scale farmers and pastoralists.
The Turkana Basin has become known around the world for its amazing fossil deposits. In particular, the area has a wealth of hominin fossils that have contributed greatly to our understanding of human evolution.
Even before the Koobi Fora Research Project began, the Turkana Basin was known for its fossils. A French expedition in 1902 and 1903 first discovered vertebrate fossils in the lower Omo Valley. (The Omo River flows south from Ethiopia into Lake Turkana.) During World War II, Allied troops stationed in southern Ethiopia collected fossils from the lake and its nearby hills.
But it was a 1968 investigation of Lake Turkana—then known by its colonial name, Lake Rudolf—by paleontologist Richard Leakey that uncovered a cache of fossils that would lead to the start of the Koobi Fora Research Project.
Flying over the region in a helicopter, Leakey noticed unusual rock formations on the eastern side of Lake Turkana. The features were thought to be igneous rock—hardened lava. To Leakey, however, the features appeared to be sedimentary rock, which is slow to accumulate and often preserves fossils. The 1968 expedition showed Leakey was right; the rocks turned out to be fossil-rich sediments.
In addition to plant and animal fossils, Koobi Fora has yielded an array of hominin species: Homo habilis, Homo rudolfensis, Homo erectus, Paranthropus boisei, Paranthropus aethiopicus, Australopithecus anamensis, and Kenyanthropus platyops.
The purpose of the Koobi Fora Research Project is nothing less than to uncover how we became human.
“We are trying to find evidence of our ancestors in order to chart the evolutionary history of our species,” says Meave Leakey, who currently runs KFRP with her daughter and fellow Explorer-in-Residence, Louise.
To fully understand how our species evolved, KFRP looks for clues to what the habitats of our ancient ancestors were like.
“We ourselves have a very good field team who finds fossils, and we are trying to find actual fossil evidence of our ancestors,” Meave Leakey says. “But we are also interested obviously in the other fossils—the fossils of the fauna and of all the animals that lived alongside our ancestors—because from the evolution of these animals we can learn what may have happened during our own evolution, the evolution of our species.”
Paleontologists, anthropologists, geologists, and other scientists involved with the Koobi Fora Research Project often have conflicting ideas about how things happened in the past. Following the scientific method, the project’s theories change and evolve as more research is conducted and the theories are tested by field work and new technologies.
“Obviously there are many different ways of interpreting some of the evidence, and that’s why we are always looking for more, because we get closer and closer to the truth with the more evidence we find,” Leakey says. “Controversy is the word that is generally used when people come up with alternative theories, but that’s the way science progresses. It’s a normal process. People will interpret one set of evidence one way and other people another way. And then you find more evidence. And then you all come to an agreement, hopefully, in the end.”
Two discoveries associated with the Turkana Basin are examples of conflict whose resolutions are being pursued through rigorous scientific inquiry and research.
In 1984, TBI paleoanthropologists discovered “Turkana Boy,” a nearly complete 1.5 million-year-old skeleton of a hominin with proportions similar to our own. Turkana Boy is the most complete early human skeleton ever found. Despite Turkana Boy being one of the most-studied hominin fossils in history, paleoanthropologists still debate whether the specimen is Homo erectus or Homo ergaster.
Other KFRP discoveries include species, such as Kenyanthropus platyops, found nowhere else in the world. There is only one K. platyops specimen, and it remains a source of scientific conflict. Some paleontologists—including Leakey—identify the skull as a unique genus (Kenyanthropus). Others say it is related to another branch of hominins, the australopithecines. Still others maintain it is not a unique species at all, but the deformed skull of a familiar hominin, Australopithecus afarensis.
Since the Koobi Fora Research Project is attempting to understand human evolution, all of humanity could be affected by the project’s findings.
Paleontologists and paleoanthropologists: Discovering and documenting the evolution of Homo sapiens sapiens, our own species, is one of the great scientific endeavors of the 20th and 21st centuries. Paleoanthropologists are continually searching for clues in the field, as well as reviewing earlier finds with new technology, to understand how H. sapiens sapiens evolved from earlier species.
The project is important because it helps us understand our shared past and may help us realize how our species should proceed into the future.
“If you believe as I do that understanding our past is important, then our work is important,” Leakey says.
“We have discovered an enormous number of fossil human ancestors that were unknown before,” she continues. “We have demonstrated that the evolutionary past of humans is much like that of other animals. There were radiation and extinction events. Our part is really no different from other animals in that sense.”
Archaeologists, geologists, climatologists, and other scientists: How early hominin species interacted with the environment and other species—and each other—is a major focus of the KFRP. Many other projects at the Turkana Basin Institute complement the work of the KFRP in this way. Archaeologists study tools and artifacts, such as fish hooks and pottery. Geologists study how the landmass of Eastern Africa developed, and how it is rifting now. Climatologists study the varied history of the Turkana Basin, following the expanding and receding shores of the ancient lake.
Turkana Basin Region Residents: Meave Leakey notes that the Turkana Basin Institute trains the region’s residents about fossil finding, fossil preparation, fossil reconstruction, and even how to curate fossil exhibits.
“We are trying very much to involve and educate the local people,” Leakey says. “And we are trying also to have the local people assisted by the work that we are doing.”
Any conflicting ideas or theories that emerge from the work of the Koobi Fora Research Project are resolved by scientists making more discoveries and conducting more research.
“The KFRP has discovered and recovered the majority of the fossil collections, hominin and non-hominin, that are known from the lake basin,” Leakey says. “These are the basis of our knowledge of the fauna and of the evolution of the animals found in East Africa today. We continue to recover, as do others, new fossil discoveries and new information that enable us to test past hypotheses and make new ones. Sometimes we are wrong, but that is the way with science. Answers are built on what we know at any particular time. With new discoveries, past ideas and theories are adjusted and refined.”
For instance, paleoclimatologists and paleobotanists working with the KFRP have uncovered significant faunal turnover between 5 million and 7 million years ago. The humid jungle habitat slowly gave way to more open environments. Grasslands became more prominent. This environmental change is now posited as one of the primary reasons hominin species became bipedal, or walking upright on two legs.
Leakey cites a past controversy that the work of the KFRP helped resolve. In the mid-20th century, paleoanthropologists debated whether H. sapiens sapiens (modern humans) evolved in Africa or elsewhere.
“Today,” Leakey says, “I don’t think anyone doubts that Homo sapiens evolved from Homo erectus in Africa, and there is much support for this, in particular the genetic evidence. [The debate] led to many people trying to find the evidence for the correct answer.”
Leakey sees a distinct conservation focus in the work of the Koobi Fora Research Project. Paleontologists and other scientists studying ancient habitats appreciate that life is fragile. Climate change has impacted life in the Turkana Basin for millions of years. The area has undergone transformations from a large freshwater lake to swampy wetland to grassy savanna to arid desert. These environmental changes have helped shape the niches of new and familiar species.
“I think it is important to understand that climates have changed dramatically over time,” Leakey says. “There have been some very major changes, and what is happening now is a major extinction event caused by humans.”
She notes that although the biggest threat to conservation comes from rising temperatures and sea levels due to the emission of carbon dioxide (CO2) into the atmosphere, it is only part of how human activity is changing the planet. There is also deforestation, overfishing, toxic waste disposal, and the use of non-biodegradable plastics.
Communication and Education
The Turkana Basin Institute (TBI) educates the scientific community, local residents, and formal and informal students of evolution about the important discoveries made by the Koobi Fora Research Project. One of the goals of the organization’s community outreach programs is to “facilitate conservation and awareness on our natural heritage and environment.”
The Turkana Basin Field School, sponsored by the TBI and the State University of New York-Stony Brook, offers college students the opportunity to spend a semester in the Turkana Basin. There, they engage with research scientists, participate in field work, and take courses such as “Vertebrate Paleontology of the Turkana Basin” and “Paleoanthropological Discoveries of the Turkana Basin.”
The National Geographic film Bones of Turkana also illuminates the work of KFRP, and follows the Leakey family on a recent dig site in the Turkana Basin. Broadcast on PBS, Bones of Turkana may reach an audience of millions.
The work of the KFRP is instrumental to the Prehistory Club of Kenya, run by paleontologist Dr. Fredrick Manthi. The Prehistory Club of Kenya has a mission of educating young people about Kenya’s spectacular prehistoric heritage.
The work of the Koobi Fora Research Project and other paleoanthropological studies in the Turkana Basin will continue for decades to come. New fossils, new research, and new technologies will influence the understanding of human evolution.
“Is research ever finished?” Meave Leakey asks. “Does research ever get all the conclusions? Does research ever get all the answers? No! There will be finds that make new questions and new things to look at and new ways to discover them.”
to gather or collect.
process in which many species develop from the same ancestral species to fill a variety of different roles in the environment.
organism from whom one is descended.
person who studies cultures and characteristics of communities and civilizations.
person who studies artifacts and lifestyles of ancient cultures.
material remains of a culture, such as tools, clothing, or food.
extinct species of small hominid that shared many traits with apes and humans, including walking upright. Australopithecines lived between 2 million and 4 million years ago.
a dip or depression in the surface of the land or ocean floor.
able to decompose naturally.
form of movement where an animal consistently uses two legs for standing or walking.
to produce offspring.
group of hidden things.
greenhouse gas produced by animals during respiration and used by plants during photosynthesis. Carbon dioxide is also the byproduct of burning fossil fuels.
all weather conditions for a given location over a period of time.
gradual changes in all the interconnected weather elements on our planet.
person who studies long-term patterns in weather.
management of a natural resource to prevent exploitation, destruction, or neglect.
to argue or disagree in a formal setting.
destruction or removal of forests and their undergrowth.
area of land that receives no more than 25 centimeters (10 inches) of precipitation a year.
place where paleontologists, archaeologists, or other scientists are digging into the Earth to find artifacts or fossils. Also called an excavation.
discharge or release.
large-scale undertaking or attempt.
conditions that surround and influence an organism or community.
data that can be measured, observed, examined, and analyzed to support a conclusion.
change in heritable traits of a population over time.
journey with a specific purpose, such as exploration.
pre-eminent explorers and scientists collaborating with the National Geographic Society to make groundbreaking discoveries that generate critical scientific information, conservation-related initiatives and compelling stories.
process of complete disappearance of a species from Earth.
person who cultivates land and raises crops.
animals associated with an area or time period.
scientific studies done outside of a lab, classroom, or office.
remnant, impression, or trace of an ancient organism.
delicate or easily broken.
having to do with genes, inherited characteristics or heredity.
person who studies the physical formations of the Earth.
ecosystem with large, flat areas of grasses.
environment where an organism lives throughout the year or for shorter periods of time.
land that rises above its surroundings and has a rounded summit, usually less than 300 meters (1,000 feet).
tribe of the hominid family of primates, distinguished by erect posture, bipedal movement, large cranial capacity, and use of specialized tools. Human beings are the only living hominins.
amount of water vapor in the air.
statement or suggestion that explains certain questions about certain facts. A hypothesis is tested to determine if it is accurate.
rock formed by the cooling of magma or lava.
series of questions or an investigation into an event.
tropical ecosystem filled with trees and underbrush.
large area of land.
molten rock, or magma, that erupts from volcanoes or fissures in the Earth's surface.
geographic area protected by the national government of a country.
role and space of a species within an ecosystem.
to harvest aquatic life to the point where species become rare in the area.
person who studies fossils and life from early geologic periods.
the study of fossils and life from early geologic periods.
any area on Earth with one or more common characteristics. Regions are the basic units of geography.
demanding, disciplined, or harsh.
natural substance composed of solid mineral matter.
method of research in which a question is asked, data are gathered, a hypothesis is made, and the hypothesis is tested.
base level for measuring elevations. Sea level is determined by measurements taken over a 19-year cycle.
rock formed from fragments of other rocks or the remains of plants or animals.
individual organism that is a typical example of its classification.
the science of using tools and complex machines to make human life easier or more profitable.
nearly complete skeleton of an approximately 1.5 million-year-old hominid (either Homo erectus or Homo ergaster) found near Lake Turkana, Kenya, in 1984.
organism with a backbone or spine.
birds that live near the water.
area of land covered by shallow water or saturated by water.
World War II
(1939-1945) armed conflict between the Allies (represented by the United States, the United Kingdom, and the Soviet Union) and the Axis (represented by Germany, Italy, and Japan.)