A stronger role for long-term moisture change than for CO2 in determining tropical woody vegetation change

May 5, 2022
WDG

Gosling, W.D., Miller, C.S., Shanahan, T.M., Holden, P.B., Overpeck, J.T. & van Langevelde, F. (2022) A stronger role for long-term moisture change than for CO2 in determining tropical woody vegetation change. Science 376, 653-656. https://doi.org/10.1126/science.abg4618

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For more on the palaeoecological dataset underpinning this research check out the PhD thesis of Charlotte Miller by clicking here or here.

OPEN ACCESS ONLINE:

Miller, C.S., Gosling, W.D., Kemp, D.B., Coe, A.L. & Gilmour, I. (2016) Drivers of ecosystem and climate change in tropical West Africa over the past ∼540 000 years. Journal of Quaternary Science online. DOI: 10.1002/jqs.2893

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