| [1] | SETH P, SEBASTIAN J. Plants and global warming: challenges and strategies for a warming world [J]. Plant Cell Reports, 2024, 43(1): 27−47. |
| [2] | 夏霁晖, 冶佩霞, 杨海, 等. 大别山北缘不同生活型木本植物叶功能性状及其耦合关系[J]. 浙江农林大学学报, 2024, 41(5): 970−977. XIA Jihui, YE Peixia, YANG Hai, et al. Leaf functional traits and their coupling relationships of woody plants with different life forms in the northern Dabie Mountains [J]. Journal of Zhejiang A&F University, 2024, 41(5): 970−977. |
| [3] | CARRIJO J N, MARACAHIPES L, SCALON M C, et al. Functional traits as indicators of ecological strategies of savanna woody species under contrasting substrate conditions [J/OL]. Flora, 2021, 284 (11): 151925[2024-07-26]. DOI: 10.1016/j.flora.2021.151925. |
| [4] | LAWSON T, MATTHEWS J. Guard cell metabolism and stomatal function [J]. Annual Review of Plant Biology, 2020, 71(1): 273−302. |
| [5] | WRIGHT I J, REICH P B, WESTOBY M, et al. The worldwide leaf economics spectrum [J]. Nature, 2004, 428(6985): 821−827. |
| [6] | JACOBSEN A L, PRATT R B, VENTURAS M D, et al. Large volume vessels are vulnerable to water-stress-induced embolism in stems of poplar [J]. IAWA Journal, 2019, 40(1): 4−22. |
| [7] | HE Nianpeng, LI Ying, LIU Congcong, et al. Plant trait networks: improved resolution of the dimensionality of adaptation [J]. Trends in Ecology & Evolution, 2020, 35(10): 908−918. |
| [8] | RAO Qingyang, CHEN Jianfeng, CHOU Qingchuan, et al. Linking trait network parameters with plant growth across light gradients and seasons [J]. Functional Ecology, 2023, 37(6): 1732−1746. |
| [9] | XIE Jiangbo, WANG Zhongyuan, LI Yan. Stomatal opening ratio mediates trait coordinating network adaptation to environmental gradients [J]. New Phytologist, 2022, 235(3): 907−922. |
| [10] | LI Xin’e, SONG Xiaoyu, ZHAO Jun, et al. Shifts and plasticity of plant leaf mass per area and leaf size among slope aspects in a subalpine meadow [J]. Ecology and Evolution, 2021, 11(20): 14042−14055. |
| [11] | SHEN Hui, ZHANG Jing, PENG Lan, et al. Spatial patterns and climatic factors influence the branch xylem anatomical traits of Reaumuria soongarica in the desert region of northwestern China [J/OL]. Environmental and Experimental Botany, 2023, 210 (6): 105338[2024-07-26]. DOI: 10.1016/j.envexpbot.2023.105338. |
| [12] | LI Le, MCCORMACK M L, MA Chengen, et al. Leaf economics and hydraulic traits are decoupled in five species-rich tropical forests [J]. Ecology Letter, 2015, 18(9): 899−906. |
| [13] | YIN Qiulong, WANG Lei, LEI Maolin, et al. The relationships between leaf economics and hydraulic traits of woody plants depend on water availability [J]. Science of the Total Environment, 2018, 621(4): 245−252. |
| [14] | MA Xiaodong, PANG Zhuo, WU Juying, et al. Seasonal pattern of stem radial growth of Salix matsudana and its response to climatic and soil factors in a semi-arid area of North China [J/OL]. Global Ecology and Conservation, 2021, 28 (8): e01701[2024-07-26]. DOI: 10.1016/j.gecco.2021.e01701. |
| [15] | ZHANG Jian, YUAN Huwei, LI Yujuan, et al. Genome sequencing and phylogenetic analysis of allotetraploid Salix matsudana Koidz [J]. Horticulture Research, 2020, 7(1): 201−212. |
| [16] | 唐艳, 王传宽. 东北主要树种光合作用可行的离体测定方法[J]. 植物生态学报, 2011, 35(4): 452−462. TANG Yan, WANG Chuankuan. A feasible method for measuring photosynthesis in vitro for major tree species in northeastern China [J]. Chinese Journal of Plant Ecology, 2011, 35(4): 452−462. |
| [17] | ZHAO Wanli, CHEN Yajun, BRODRIBB T J, et al. Weak co-ordination between vein and stomatal densities in 105 angiosperm tree species along altitudinal gradients in Southwest China [J]. Functional Plant Biology, 2016, 43(12): 1126−1133. |
| [18] | LIU Congcong, HE Nianpeng, ZHANG Jiahui, et al. Variation of stomatal traits from cold temperate to tropical forests and association with water use efficiency [J]. Functional Ecology, 2018, 32(1): 20−28. |
| [19] | FRANKS P J, BEERLING D J. CO2-forced evolution of plant gas exchange capacity and water-use efficiency over the Phanerozoic [J]. Geobiology, 2009, 7(2): 227−236. |
| [20] | 上官方京, 赵明水, 张博纳, 等. 亚热带植物水力性状与木质部解剖结构的关系[J]. 浙江农林大学学报, 2022, 39(2): 252−261. SHANGGUAN Fangjing, ZHAO Mingshui, ZHANG Bona, et al. Relationship between hydraulic properties and xylem anatomical structure of subtropical plants [J]. Journal of Zhejiang A&F University, 2022, 39(2): 252−261. |
| [21] | LAI Jiangshan, ZOU Yi, ZHANG Jinlong, et al. Generalizing hierarchical and variation partitioning in multiple regression and canonical analyses using the rdacca. hp R package [J]. Methods in Ecology and Evolution, 2022, 13(4): 782−788. |
| [22] | BULUT M, ALSEEKH S, FERNIE A R. Natural variation of respiration-related traits in plants [J]. Plant Physiology, 2023, 191(4): 2120−2132. |
| [23] | SUN Jingguo, LIU Congcong, HOU Jihua, et al. Spatial variation of stomatal morphological traits in grassland plants of the Loess Plateau [J/OL]. Ecological Indicators, 2021, 128 (9): 107857[2024-07-26]. DOI: 10.1016/j.ecolind.2021.107857. |
| [24] | FRANKS P J, LEITCH I J, RUSZALA E M, et al. Physiological framework for adaptation of stomata to CO2 from glacial to future concentrations [J]. Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences, 2012, 367(1588): 537−546. |
| [25] | JOSWIG J S, WIRTH C, SCHUMAN M C, et al. Climatic and soil factors explain the two-dimensional spectrum of global plant trait variation [J]. Nature Ecology & Evolution, 2022, 6(1): 36−50. |
| [26] | ROSAS T, MENCUCCINI M, BARBA J, et al. Adjustments and coordination of hydraulic, leaf and stem traits along a water availability gradient [J]. New Phytologist, 2019, 223(2): 632−646. |
| [27] | SIMPSON A H, RICHARDSON S J, LAUGHLIN D C. Soil-climate interactions explain variation in foliar, stem, root and reproductive traits across temperate forests [J]. Global Ecology and Biogeography, 2016, 25(8): 964−978. |
| [28] | DUAN Honglang, LI Yiyong, XU Yue, et al. Contrasting drought sensitivity and post-drought resilience among three co-occurring tree species in subtropical China [J]. Agricultural and Forest Meteorology, 2019, 272(7): 55−68. |
| [29] | RAMÍREZ-VALIENTE J A, LÓPEZ R, HIPP A L, et al. Correlated evolution of morphology, gas exchange, growth rates and hydraulics as a response to precipitation and temperature regimes in oaks (Quercus) [J]. New Phytologist, 2020, 227(3): 794−809. |
| [30] | LI Caixia, HAMANI M, SUN Jingsheng, et al. Drought-hardening improves flooding tolerance of maize at seedling stage under drought-flood abrupt alternations [J]. Applied Ecology and Environmental Research, 2022, 20(4): 3261−3275. |
| [31] | 李颖. 叶片性状网络在不同植被类型间的变异规律及其影响因素[D]. 北京: 北京林业大学, 2020. LI Ying. Variation of Leaf Trait Network Among Different Vegetation Types and Its Influencing Factors[D]. Beijing: Beijing Forestry University, 2020. |
| [32] | REN Tingting, HE Nianpeng, LIU Zhaogang, et al. Environmental filtering rather than phylogeny determines plant leaf size in three floristically distinctive plateaus [J/OL]. Ecological Indicators, 2021, 130 (11): 108049[2024-07-26]. DOI: 10.1016/j.ecolind.2021.108049. |
| [33] | HUANG Caishuang, XU Yue, ZANG Runguo. Variation patterns of functional trait moments along geographical gradients and their environmental determinants in the subtropical evergreen broadleaved forests [J/OL]. Frontiers in Plant Science, 2021, 12 (7): 686965[2024-07-26]. DOI: 10.3389/fpls.2021.686965. |
| [34] | PYAKUREL A, WANG Jian R. Leaf morphological and stomatal variations in paper birch populations along environmental gradients in Canada [J]. American Journal of Plant Sciences, 2014, 5(11): 1508−1520. |
| [35] | HUBER H, CHEN Xin, HENDRIKS M, et al. Plasticity as a plastic response: how submergence-induced leaf elongation in Rumex palustris depends on light and nutrient availability in its early life stage [J]. New Phytologist, 2012, 194(2): 572−582. |
| [36] | RADUJKOVIĆ D, VERBRUGGEN E, SEABLOOM E W, et al. Soil properties as key predictors of global grassland production: have we overlooked micronutrients? [J]. Ecology Letters, 2021, 24(12): 2713−2725. |
| [37] | CHELLI S, OTTAVIANI G, SIMONETTI E, et al. Intraspecific variability of specific leaf area fosters the persistence of understorey specialists across a light availability gradient [J]. Plant Biology, 2021, 23(1): 212−216. |
| [38] | 马瑞婷, 董晓明, 靳珊珊, 等. 间伐对栓皮栎人工林林下荆条根茎叶主要功能性状的影响[J]. 浙江农林大学学报, 2021, 38(3): 567−576. MA Ruiting, DONG Xiaoming, JIN Shanshan, et al. Effects of thinning on the functional traits of understory Vitex negundo var. heterophylla in Quercus variabilis plantation [J]. Journal of Zhejiang A&F University, 2021, 38(3): 567−576. |
| [39] | 朱良军, 李宗善, 王晓春. 树轮木质部解剖特征及其与环境变化的关系[J]. 植物生态学报, 2017, 41(2): 238−251. ZHU Liangjun, LI Zongshan, WANG Xiaochun. Anatomical characteristics of xylem in tree rings and its relationship with environments [J]. Chinese Journal of Plant Ecology, 2017, 41(2): 238−251. |
| [40] | CUBINO J P, BIURRUN I, BONARI G, et al. The leaf economic and plant size spectra of European forest understory vegetation [J]. Ecography, 2021, 44(9): 1311−1324. |