TY - JOUR
T1 - Spatiotemporal maintenance of flora in the Himalaya biodiversity hotspot
T2 - Current knowledge and future perspectives
AU - Wambulwa, Moses C.
AU - Milne, Richard
AU - Wu, Zeng‐Yuan
AU - Spicer, Robert A.
AU - Provan, Jim
AU - Luo, Ya‐Huang
AU - Zhu, Guang‐Fu
AU - Wang, Wan‐Ting
AU - Wang, Hong
AU - Gao, Lian‐Ming
AU - Li, De‐Zhu
AU - Liu, Jie
N1 - Funding Information:
This study was supported by the Key Research Program of Frontier Sciences, CAS (ZDBS‐LY‐7001), the Strategic Priority Research Program of Chinese Academy of Sciences (XDB31010000), the National Natural Science Foundation of China (41971071, 31770367), and the Top‐notch Young Talents Project of Yunnan Provincial “Ten Thousand Talents Program” (YNWR‐QNBJ‐2018‐146). Zeng‐Yuan Wu was supported by CAS Youth Innovation Promotion Association (2019385), the Biological Resources Program, Chinese Academy of Sciences (KFJ‐BRP‐017‐XX). Moses Wambulwa was supported by the Postdoctoral International Exchange Program of the Office of China Postdoctoral Council and the Postdoctoral Targeted Funding and Postdoctoral Research Fund of Yunnan Province. Robert Spicer was supported by the UK Natural Environment Research Council (Grant NE/P013805/1)/National Natural Science Foundation of China (Grant 41661134049) joint project and an XTBG International Fellowship for Visiting Scientists. Jie Liu was supported by the China Scholarship Council for one‐year study at the Aberystwyth University, UK.
Publisher Copyright:
© 2021 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.
PY - 2021/8/16
Y1 - 2021/8/16
N2 - Mountain ecosystems support a significant one-third of all terrestrial biodiversity, but our understanding of the spatiotemporal maintenance of this high biodiversity remains poor, or at best controversial. The Himalaya hosts a complex mountain ecosystem with high topographic and climatic heterogeneity and harbors one of the world's richest floras. The high species endemism, together with increasing anthropogenic threats, has qualified the Himalaya as one of the most significant global biodiversity hotspots. The topographic and climatic complexity of the Himalaya makes it an ideal natural laboratory for studying the mechanisms of floral exchange, diversification, and spatiotemporal distributions. Here, we review literature pertaining to the Himalaya in order to generate a concise synthesis of the origin, distribution, and climate change responses of the Himalayan flora. We found that the Himalaya supports a rich biodiversity and that the Hengduan Mountains supplied the majority of the Himalayan floral elements, which subsequently diversified from the late Miocene onward, to create today's relatively high endemicity in the Himalaya. Further, we uncover links between this Miocene diversification and the joint effect of geological and climatic upheavals in the Himalaya. There is marked variance regarding species dispersal, elevational gradients, and impact of climate change among plant species in the Himalaya, and our review highlights some of the general trends and recent advances on these aspects. Finally, we provide some recommendations for conservation planning and future research. Our work could be useful in guiding future research in this important ecosystem and will also provide new insights into the maintenance mechanisms underpinning other mountain systems.
AB - Mountain ecosystems support a significant one-third of all terrestrial biodiversity, but our understanding of the spatiotemporal maintenance of this high biodiversity remains poor, or at best controversial. The Himalaya hosts a complex mountain ecosystem with high topographic and climatic heterogeneity and harbors one of the world's richest floras. The high species endemism, together with increasing anthropogenic threats, has qualified the Himalaya as one of the most significant global biodiversity hotspots. The topographic and climatic complexity of the Himalaya makes it an ideal natural laboratory for studying the mechanisms of floral exchange, diversification, and spatiotemporal distributions. Here, we review literature pertaining to the Himalaya in order to generate a concise synthesis of the origin, distribution, and climate change responses of the Himalayan flora. We found that the Himalaya supports a rich biodiversity and that the Hengduan Mountains supplied the majority of the Himalayan floral elements, which subsequently diversified from the late Miocene onward, to create today's relatively high endemicity in the Himalaya. Further, we uncover links between this Miocene diversification and the joint effect of geological and climatic upheavals in the Himalaya. There is marked variance regarding species dispersal, elevational gradients, and impact of climate change among plant species in the Himalaya, and our review highlights some of the general trends and recent advances on these aspects. Finally, we provide some recommendations for conservation planning and future research. Our work could be useful in guiding future research in this important ecosystem and will also provide new insights into the maintenance mechanisms underpinning other mountain systems.
KW - biodiversity hotspot
KW - climate change
KW - elevational gradient
KW - Himalayan flora
KW - mountain ecosystem
KW - spatiotemporal diversification
UR - http://www.scopus.com/inward/record.url?scp=85110255074&partnerID=8YFLogxK
U2 - 10.1002/ece3.7906
DO - 10.1002/ece3.7906
M3 - Review Article
C2 - 34429882
SN - 2045-7758
VL - 11
SP - 10794
EP - 10812
JO - Ecology and Evolution
JF - Ecology and Evolution
IS - 16
ER -