Investigating Biotic Interactions in Deep Time
Research output: Contribution to journal › Review › Research › peer-review
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Investigating Biotic Interactions in Deep Time. / Fraser, Danielle; Soul, Laura C.; Toth, Aniko B.; Balk, Meghan A.; Eronen, Jussi T.; Pineda-Munoz, Silvia; Shupinski, Alexandria B.; Villasenor, Amelia; Barr, W. Andrew; Behrensmeyer, Anna K.; Du, Andrew; Faith, J. Tyler; Gotelli, Nicholas J.; Graves, Gary R.; Jukar, Advait M.; Looy, Cindy V.; Miller, Joshua H.; Potts, Richard; Lyons, S. Kathleen.
In: Trends in Ecology & Evolution, Vol. 36, No. 1, 2021, p. 61-75.Research output: Contribution to journal › Review › Research › peer-review
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TY - JOUR
T1 - Investigating Biotic Interactions in Deep Time
AU - Fraser, Danielle
AU - Soul, Laura C.
AU - Toth, Aniko B.
AU - Balk, Meghan A.
AU - Eronen, Jussi T.
AU - Pineda-Munoz, Silvia
AU - Shupinski, Alexandria B.
AU - Villasenor, Amelia
AU - Barr, W. Andrew
AU - Behrensmeyer, Anna K.
AU - Du, Andrew
AU - Faith, J. Tyler
AU - Gotelli, Nicholas J.
AU - Graves, Gary R.
AU - Jukar, Advait M.
AU - Looy, Cindy V.
AU - Miller, Joshua H.
AU - Potts, Richard
AU - Lyons, S. Kathleen
PY - 2021
Y1 - 2021
N2 - Recent renewed interest in using fossil data to understand how biotic interactions have shaped the evolution of life is challenging the widely held assumption that long-term climate changes are the primary drivers of biodiversity change. New approaches go beyond traditional richness and co-occurrence studies to explicitly model biotic interactions using data on fossil and modern biodiversity. Important developments in three primary areas of research include analysis of (i) macroevolutionary rates, (ii) the impacts of and recovery from extinction events, and (iii) how humans (Homo sapiens) affected interactions among non-human species. We present multiple lines of evidence for an important and measurable role of biotic interactions in shaping the evolution of communities and lineages on long timescales.
AB - Recent renewed interest in using fossil data to understand how biotic interactions have shaped the evolution of life is challenging the widely held assumption that long-term climate changes are the primary drivers of biodiversity change. New approaches go beyond traditional richness and co-occurrence studies to explicitly model biotic interactions using data on fossil and modern biodiversity. Important developments in three primary areas of research include analysis of (i) macroevolutionary rates, (ii) the impacts of and recovery from extinction events, and (iii) how humans (Homo sapiens) affected interactions among non-human species. We present multiple lines of evidence for an important and measurable role of biotic interactions in shaping the evolution of communities and lineages on long timescales.
KW - PREDICTING TIPPING POINTS
KW - BAYESIAN-ESTIMATION
KW - CLADE COMPETITION
KW - SPECIES RICHNESS
KW - DIVERSIFICATION
KW - MACROEVOLUTIONARY
KW - MAMMALS
KW - PLEISTOCENE
KW - COMMUNITIES
KW - EXTINCTION
U2 - 10.1016/j.tree.2020.09.001
DO - 10.1016/j.tree.2020.09.001
M3 - Review
C2 - 33067015
VL - 36
SP - 61
EP - 75
JO - Trends in Ecology & Evolution
JF - Trends in Ecology & Evolution
SN - 0169-5347
IS - 1
ER -
ID: 256163246