TY - JOUR
T1 - Rapid changes in seed dispersal traits may modify plant responses to global change
AU - Johnson, Jeremy S.
AU - Cantrell, Robert Stephen
AU - Cosner, Chris
AU - Hartig, Florian
AU - Hastings, Alan
AU - Rogers, Haldre S.
AU - Schupp, Eugene W.
AU - Shea, Katriona
AU - Teller, Brittany J.
AU - Yu, Xiao
AU - Zurell, Damaris
AU - Pufal, Gesine
N1 - Publisher Copyright:
© The Author(s) 2019. Published by Oxford University Press on behalf of the Annals of Botany Company.
PY - 2019/4/16
Y1 - 2019/4/16
N2 - When climatic or environmental conditions change, plant populations must either adapt to these new conditions, or track their niche via seed dispersal. Adaptation of plants to different abiotic environments has mostly been discussed with respect to physiological and demographic parameters that allow local persistence. However, rapid modifications in response to changing environmental conditions can also affect seed dispersal, both via plant traits and via their dispersal agents. Studying such changes empirically is challenging, due to the high variability in dispersal success, resulting from environmental heterogeneity, and substantial phenotypic variability of dispersal-related traits of seeds and their dispersers. The exact mechanisms that drive rapid changes are often not well understood, but the ecological implications of these processes are essential determinants of dispersal success, and deserve more attention from ecologists, especially in the context of adaptation to global change. We outline the evidence for rapid changes in seed dispersal traits by discussing variability due to plasticity or genetics broadly, and describe the specific traits and biological systems in which variability in dispersal is being studied, before discussing some of the potential underlying mechanisms. We then address future research needs and propose a simulation model that incorporates phenotypic plasticity in seed dispersal. We close with a call to action and encourage ecologists and biologist to embrace the challenge of better understanding rapid changes in seed dispersal and their consequences for the reaction of plant populations to global change.
AB - When climatic or environmental conditions change, plant populations must either adapt to these new conditions, or track their niche via seed dispersal. Adaptation of plants to different abiotic environments has mostly been discussed with respect to physiological and demographic parameters that allow local persistence. However, rapid modifications in response to changing environmental conditions can also affect seed dispersal, both via plant traits and via their dispersal agents. Studying such changes empirically is challenging, due to the high variability in dispersal success, resulting from environmental heterogeneity, and substantial phenotypic variability of dispersal-related traits of seeds and their dispersers. The exact mechanisms that drive rapid changes are often not well understood, but the ecological implications of these processes are essential determinants of dispersal success, and deserve more attention from ecologists, especially in the context of adaptation to global change. We outline the evidence for rapid changes in seed dispersal traits by discussing variability due to plasticity or genetics broadly, and describe the specific traits and biological systems in which variability in dispersal is being studied, before discussing some of the potential underlying mechanisms. We then address future research needs and propose a simulation model that incorporates phenotypic plasticity in seed dispersal. We close with a call to action and encourage ecologists and biologist to embrace the challenge of better understanding rapid changes in seed dispersal and their consequences for the reaction of plant populations to global change.
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U2 - 10.1093/aobpla/plz020
DO - 10.1093/aobpla/plz020
M3 - Article
C2 - 31198528
AN - SCOPUS:85070205950
SN - 2041-2851
VL - 11
SP - 1
EP - 20
JO - AoB PLANTS
JF - AoB PLANTS
IS - 3
ER -