An ecometric analysis of the fossil mammal record of the Turkana basin

Research output: Contribution to journalReview ArticleScientificpeer-review

Details

Original languageEnglish
Article number20150232
Number of pages13
JournalPHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY B: BIOLOGICAL SCIENCES
Volume371
Issue number1698
Publication statusPublished - 5 Jul 2016
MoE publication typeA2 Review article in a scientific journal

Researchers

  • Mikael Fortelius
  • Indre Zliobaite
  • Ferhat Kaya
  • Faysal Bibi
  • René Bobe
  • Louise Leakey
  • Meave Leakey
  • David Patterson
  • Janina Rannikko
  • Lars Werdelin

Research units

  • Leibniz-Institut für Evolutions- und Biodiversitätsforschung
  • University of Helsinki
  • Universidad de Chile
  • SUNY Stony Brook
  • George Washington University
  • Swedish Museum of Natural History
  • University of Oslo
  • Turkana Basin Institute

Abstract

Although ecometric methods have been used to analyse fossil mammal faunas and environments of Eurasia and North America, such methods have not yet been applied to the rich fossil mammal record of eastern Africa. Here we report results from analysis of a combined dataset spanning east and west Turkana from Kenya between 7 and 1 million years ago (Ma). We provide temporally and spatially resolved estimates of temperature and precipitation and discuss their relationship to patterns of faunal change, and propose a new hypothesis to explain the lack of a temperature trend. We suggest that the regionally arid Turkana Basin may between 4 and 2 Ma have acted as a ‘species factory’, generating ecological adaptations in advance of the global trend. We show a persistent difference between the eastern and western sides of the Turkana Basin and suggest that the wetlands of the shallow eastern side could have provided additional humidity to the terrestrial ecosystems. Pending further research, a transient episode of faunal change centred at the time of the KBS Member (1.87-1.53 Ma), may be equally plausibly attributed to climate change or to a top-down ecological cascade initiated by the entry of technologically sophisticated humans.

    Research areas

  • Ecosystem change, Fossil mammal, Human origins, Palaeoclimate, Predictive modelling

Download statistics

No data available

ID: 6615088