Assessing the spatial scale of synchrony in forest tree population dynamics.

IF 3.8 1区 生物学 Q1 BIOLOGY
Ryan A Chisholm, Tak Fung, Kristina J Anderson-Teixeira, Norman A Bourg, Warren Y Brockelman, Sarayudh Bunyavejchewin, Chia-Hao Chang-Yang, Yu-Yun Chen, George B Chuyong, Richard Condit, Handanakere S Dattaraja, Stuart J Davies, Sisira Ediriweera, Corneille E N Ewango, Edwino S Fernando, I A U Nimal Gunatilleke, C V Savitri Gunatilleke, Zhanqing Hao, Robert W Howe, David Kenfack, Tze Leong Yao, Jean-Remy Makana, Sean M McMahon, Xiangcheng Mi, Mohizah Bt Mohamad, Jonathan A Myers, Anuttara Nathalang, Álvaro J Pérez, Sangsan Phumsathan, Nantachai Pongpattananurak, Haibao Ren, Lillian J V Rodriguez, Raman Sukumar, I-Fang Sun, Hebbalalu S Suresh, Duncan W Thomas, Jill Thompson, Maria Uriarte, Renato Valencia, Xugao Wang, Amy T Wolf, Jess K Zimmerman
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引用次数: 0

Abstract

Populations of forest trees exhibit large temporal fluctuations, but little is known about the synchrony of these fluctuations across space, including their sign, magnitude, causes and characteristic scales. These have important implications for metapopulation persistence and theoretical community ecology. Using data from permanent forest plots spanning local, regional and global spatial scales, we measured spatial synchrony in tree population growth rates over sub-decadal and decadal timescales and explored the relationship of synchrony to geographical distance. Synchrony was high at local scales of less than 1 km, with estimated Pearson correlations of approximately 0.6-0.8 between species' population growth rates across pairs of quadrats. Synchrony decayed by approximately 17-44% with each order of magnitude increase in distance but was still detectably positive at distances of 100 km and beyond. Dispersal cannot explain observed large-scale synchrony because typical seed dispersal distances (<100 m) are far too short to couple the dynamics of distant forests on decadal timescales. We attribute the observed synchrony in forest dynamics primarily to the effect of spatially synchronous environmental drivers (the Moran effect), in particular climate, although pests, pathogens and anthropogenic drivers may play a role for some species.

评估林木种群动态同步性的空间尺度。
林木种群表现出巨大的时间波动,但人们对这些波动在空间上的同步性知之甚少,包括波动的符号、幅度、原因和特征尺度。这些对元种群的持久性和理论群落生态学都有重要影响。我们利用跨越地方、区域和全球空间尺度的永久性林地数据,测量了树木种群增长率在亚十年和十年时间尺度上的空间同步性,并探讨了同步性与地理距离的关系。在小于 1 千米的局部尺度上,同步性很高,据估计,成对四分位点的物种种群增长率之间的皮尔逊相关性约为 0.6-0.8。距离每增加一个数量级,同步性就会下降约 17-44%,但在 100 千米及以上的距离上仍可检测到同步性。传播不能解释观察到的大尺度同步性,因为典型的种子传播距离 (
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来源期刊
CiteScore
7.90
自引率
4.30%
发文量
502
审稿时长
1 months
期刊介绍: Proceedings B is the Royal Society’s flagship biological research journal, accepting original articles and reviews of outstanding scientific importance and broad general interest. The main criteria for acceptance are that a study is novel, and has general significance to biologists. Articles published cover a wide range of areas within the biological sciences, many have relevance to organisms and the environments in which they live. The scope includes, but is not limited to, ecology, evolution, behavior, health and disease epidemiology, neuroscience and cognition, behavioral genetics, development, biomechanics, paleontology, comparative biology, molecular ecology and evolution, and global change biology.
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