Phylogenetic and climatic constraints drive flowering phenological patterns in a subtropical nature reserve

doi:10.1093/jpe/rtv009

J Plant Ecol ›› 2015, Vol. 8 ›› Issue (2): 187-196 .DOI: 10.1093/jpe/rtv009

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Phylogenetic and climatic constraints drive flowering phenological patterns in a subtropical nature reserve

Nan-Cai Pei¹, W. John Kress², Bu-Feng Chen¹, David L. Erickson², Khoon Meng Wong³, Jin-Long Zhang⁴, Wan-Hui Ye⁵, Zhong-Liang Huang⁵ and Dian-Xiang Zhang^5,*

¹ Forest Ecosystem Station of the Pearl River Delta, State Forestry Administration, Research Institute of Tropical Forestry, Chinese Academy of Forestry, 682 Guangshan Road 1, Tianhe District, Guangzhou 510520, China; ² Department of Botany, MRC-166, National Museum of Natural History, Smithsonian Institution, P.O. Box 37012, Washington, DC 20013-7012, USA; ³ Singapore Botanic Gardens, 1 Cluny Road, Singapore 259569, Singapore; ⁴ Flora Conservation Department, Kadoorie Farm and Botanic Garden, Lam Kam Road, Tai Po, NT, Hongkong, China; ⁵ South China Botanical Garden, Chinese Academy of Sciences, 723 Xingke Road, Tianhe District, Guangzhou 510650, China

Received:2015-01-14 Accepted:2015-01-24 Published:2015-03-27
Contact: Zhang, Dianxiang

Phylogenetic and climatic constraints drive flowering phenological patterns in a subtropical nature reserve

Abstract

Abstract: Aims Exploring flowering patterns and detecting processes are essential when probing into the nature of reproductive traits during the life history and the interactions among different evolutionary clades. Such patterns are believed to be influenced by many factors, but quantifying these impacts at the community-level remains poorly understood.
Methods We investigated the flowering patterns based on long-term herbarium records in a given area from subtropical forest regions in southern China. We obtained 5258 herbarium voucher specimens collected from the Dinghushan National Nature Reserve (DNNR) belonging to 166 families, 943 genera and 2059 species and examined the month when each species was flowering during the period 1920–2007.
Important findings The results showed that plants flowered sequentially almost throughout the whole year, showing the characteristics of subtropical evergreen broad-leaved forests. Flowering spectrums of the entire flora and the four life forms exhibited a clear unimodality that is probably typical of subtropical forest communities. Flowering patterns of the DNNR were positively correlated with mean rainfall, mean air temperature and mean sunshine duration. Median flowering dates of the 38 large species-rich families ranged from early April to late August; 25 families exhibited significant unimodal distribution patterns, whereas the remaining families were unclear or bimodal. Median flowering dates of the 10 most species-rich genera ranged from middle May to later July. While the results are consistent with climatic factors playing a general role in flowering patterns, median flowering dates varied significantly among species-rich families and genera, suggesting that phylogenies could provide specific constraints in subtropical forests.

Key words: environmental driver, flowering phenology, phylogenetic effect, reproductive trait, subtropical forest

摘要：
Aims Exploring flowering patterns and detecting processes are essential when probing into the nature of reproductive traits during the life history and the interactions among different evolutionary clades. Such patterns are believed to be influenced by many factors, but quantifying these impacts at the community-level remains poorly understood.
Methods We investigated the flowering patterns based on long-term herbarium records in a given area from subtropical forest regions in southern China. We obtained 5258 herbarium voucher specimens collected from the Dinghushan National Nature Reserve (DNNR) belonging to 166 families, 943 genera and 2059 species and examined the month when each species was flowering during the period 1920–2007.
Important findings The results showed that plants flowered sequentially almost throughout the whole year, showing the characteristics of subtropical evergreen broad-leaved forests. Flowering spectrums of the entire flora and the four life forms exhibited a clear unimodality that is probably typical of subtropical forest communities. Flowering patterns of the DNNR were positively correlated with mean rainfall, mean air temperature and mean sunshine duration. Median flowering dates of the 38 large species-rich families ranged from early April to late August; 25 families exhibited significant unimodal distribution patterns, whereas the remaining families were unclear or bimodal. Median flowering dates of the 10 most species-rich genera ranged from middle May to later July. While the results are consistent with climatic factors playing a general role in flowering patterns, median flowering dates varied significantly among species-rich families and genera, suggesting that phylogenies could provide specific constraints in subtropical forests.

Nan-Cai Pei, W. John Kress, Bu-Feng Chen, David L. Erickson, Khoon Meng Wong, Jin-Long Zhang, Wan-Hui Ye, Zhong-Liang Huang, Dian-Xiang Zhang. Phylogenetic and climatic constraints drive flowering phenological patterns in a subtropical nature reserve[J]. J Plant Ecol, 2015, 8(2): 187-196.

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Phylogenetic and climatic constraints drive flowering phenological patterns in a subtropical nature reserve

Phylogenetic and climatic constraints drive flowering phenological patterns in a subtropical nature reserve

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