| [1] | 杨屹宇, 崔爽, 张芸香, 等. 油松人工林新生枝叶碳氮磷含量及化学计量比对氮添加的响应[J]. 广西林业科学, 2022, 51(1): 10−16. YANG Yiyu, CUI Shuang, ZHANG Yunxiang, et al. Responses of C, N and P contents and their stoichiometric ratios of new branches and leaves in Pinus tabulaeformis plantations to N addition[J]. Guangxi Forestry Science, 2022, 51(1): 10−16. |
| [2] | 原雅楠, 李正才, 王斌, 等. 不同林龄榧树根、枝、叶的C、N、P化学计量及内稳性特征[J]. 南京林业大学学报(自然科学版), 2021, 45(6): 135−142. YUAN Yanan, LI Zhengcai, WANG Bin, et al. Ecological stoichiometry in leaves, branches and roots of Torreya grandis with different forest ages and its stoichiometric homoeostasis[J]. Journal of Nanjing Forestry University (Natural Sciences Edition), 2021, 45(6): 135−142. |
| [3] | KOERSELMAN W, MEULEMAN A F M. The vegetation N∶P ratio: a new tool to detect the nature of nutrient limitation[J]. Journal of Applied Ecology, 1996, 33(6): 1441−1450. |
| [4] | BLUM A. Osmotic adjustment is a prime drought stress adaptive engine in support of plant production[J]. Plant, Cell & Environment, 2017, 40(1): 4−10. |
| [5] | 刘元玺, 吴俊文, 赵志娟, 等. 云南松幼龄林和中龄林针叶非结构性碳水化合物与碳氮磷化学计量特征分析[J]. 西北农林科技大学学报(自然科学版), 2024, 52(3): 30−39. LIU Yuanxi, WU Junwen, ZHAO Zhijuan, et al. Characterization of non-structural carbohydrates and carbon, nitrogen and phosphorus stoichiometry of needles in young and middle-aged Pinus yunnanensis forests[J]. Journal of Northwest A&F University (Natural Science Edition), 2024, 52(3): 30−39. |
| [6] | MILLARD P, SOMMERKORN M, GRELET G A. Environmental change and carbon limitation in trees: a biochemical, ecophysiological and ecosystem appraisal[J]. New Phytologist, 2007, 175(1): 11−28. |
| [7] | 杜建会, 邵佳怡, 李升发, 等. 树木非结构性碳水化合物含量多时空尺度变化特征及其影响因素研究进展[J]. 应用生态学报, 2020, 31(4): 1378−1388. DU Jianhui, SHAO Jiayi, LI Shengfa, et al. Non-structural carbohydrate content of trees and its influencing factors at multiple spatial-temporal scales: a review[J]. Chinese Journal of Applied Ecology, 2020, 31(4): 1378−1388. |
| [8] | SARDANS J, RIVAS-UBACH A, PEÑUELAS J. Factors affecting nutrient concentration and stoichiometry of forest trees in Catalonia (NE Spain)[J]. Forest Ecology and Management, 2011, 262(11): 2024−2034. |
| [9] | 郑绍傑, 茶晓飞, 孙丽娟, 等. 不同林龄白枪杆及土壤生态化学计量及非结构性碳特征研究[J]. 核农学报, 2024, 38(2): 364−373. ZHENG Shaojie, CHA Xiaofei, SUN Lijuan, et al. Study on the characteristics of soil ecological stoichiometry and non-structural carbon in different forest ages of Fraxinus malacophylla[J]. Journal of Nuclear Agricultural Sciences, 2024, 38(2): 364−373. |
| [10] | 陈日升, 康文星, 周玉泉, 等. 杉木人工林养分循环随林龄变化的特征[J]. 植物生态学报, 2018, 42(2): 173−184. CHEN Risheng, KANG Wenxing, ZHOU Yuquan, et al. Changes in nutrient cycling with age in a Cunninghamia lanceolata plantation forest [J]. Chinese Journal of Plant Ecology, 2018, 42(2): 173−184. |
| [11] | ZHANG Qingyin, JIA Xiaoxu, SHAO Ming’an, et al. Unfolding non-structural carbohydrates from sapling to dying black locust on China’s Loess Plateau[J]. Journal of Plant Growth Regulation, 2018, 37(3): 794−802. |
| [12] | 任鹏, 伊怀虎, 韦自强, 等. 不同种源水曲柳叶片生态化学计量特征比较[J]. 森林工程, 2023, 39(5): 31−39. REN Peng, YI Huaihu, WEI Ziqiang, et al. Comparison of ecological stoichiometric characteristics of Fraxinus mandshurica leaves from different provenances[J]. Forest Engineering, 2023, 39(5): 31−39. |
| [13] | 章异平, 曹鹏鹤, 徐军亮, 等. 秦岭东段栓皮栎叶片非结构性碳水化合物含量的季节动态[J]. 生态学报, 2019, 39(19): 7274−7282. ZHANG Yiping, CAO Penghe, XU Junliang, et al. Seasonal dynamics of non-structural carbohydrate contents in leaves of Quercus variabilis growing in the east Qinling Mountain range[J]. Acta Ecologica Sinica, 2019, 39(19): 7274−7282. |
| [14] | 杨圆圆, 刘金义, 战金伟, 等. 辽东山区红松人工林生态系统多功能性研究[J]. 西北林学院学报, 2024, 39(2): 51−59, 209. YANG Yuanyuan, LIU Jinyi, ZHAN Jinwei, et al. Multifunctionality of Pinus koraiensis plantation ecosystem in eastern Liaoning mountainous area[J]. Journal of Northwest Forestry University, 2024, 39(2): 51−59, 209. |
| [15] | 王红春, 李国春, 栾国军, 等. 主要树种龄级与龄组划分: LY/T 2908—2017[S]. 北京: 中国标准出版社, 2017. WANG Hongchun, LI Guochun, LUAN Guojun, et al. Age Class and Age Group of Main Tree Species: LY/T 2908−2017 [S]. Beijing: Standards Press of China, 2017. |
| [16] | 李合生, 孙群, 赵世杰, 等. 植物生理生化实验原理与技术[M]. 北京: 高教出版社, 2005. LI Hesheng, SUN Qun, ZHAO Shijie, et al. Experimental Principles and Techniques of Plant Physiology and Biochemistry [M]. Beijing: Higher Education Press, 2005. |
| [17] | 马玥, 苏宝玲, 韩艳刚, 等. 岳桦幼苗光合特性和非结构性碳水化合物积累对干旱胁迫的响应[J]. 应用生态学报, 2021, 32(2): 513−520. MA Yue, SU Baoling, HAN Yangang, et al. Response of photosynthetic characteristics and non-structural carbohydrate accumulation of Betula ermanii seedlings to drought stress[J]. Chinese Journal of Applied Ecology, 2021, 32(2): 513−520. |
| [18] | 王凯, 齐悦彤, 那恩航, 等. 基于器官-凋落叶-土壤生态化学计量特征的樟子松和赤松人工林养分利用策略[J]. 生态学杂志, 2023, 42(2): 274−281. WANG Kai, QI Yuetong, NA Enhang, et al. Nutrient use strategies of Pinus sylvestris var. mongolica and Pinus densifllora plantations based on ecological stoichiometry in organ-litter-soil systems[J]. Chinese Journal of Ecology, 2023, 42(2): 274−281. |
| [19] | 张海燕, 王传宽, 王兴昌. 温带12个树种新老树枝非结构性碳水化合物浓度比较[J]. 生态学报, 2013, 33(18): 5675−5685. ZHANG Haiyan, WANG Chuankuan, WANG Xingchang. Comparison of concentrations of non-structural carbohydrates between new twigs and old branches for 12 temperate species[J]. Acta Ecologica Sinica, 2013, 33(18): 5675−5685. |
| [20] | ZWIENIECKI M A, DAVIDSON A M, OROZCO J, et al. The impact of non-structural carbohydrates (NSC) concentration on yield in Prunus dulcis, Pistacia vera, and Juglans regia[J]. Scientific Reports, 2022, 12(1): 4360−4360. |
| [21] | SONG Xinzhang, PENG Changhui, ZHOU Guomo, et al. Dynamic allocation and transfer of non-structural carbohydrates, a possible mechanism for the explosive growth of Moso bamboo (Phyllostachys heterocycla)[J/OL]. Scientific Reports, 2016, 6: 25908[2024-08-01]. DOI: 10.1038/srep25908. |
| [22] | SCHOONMAKER A L, HILLABRAND R M, LIEFFERS V J, et al. Seasonal dynamics of non-structural carbon pools and their relationship to growth in two boreal conifer tree species[J]. Tree Physiology, 2021, 41(9): 1563−1582. |
| [23] | ZHANG Kerong, SONG Conghe, ZHANG Yulong, et al. Global-scale patterns of nutrient density and partitioning in forests in relation to climate[J]. Global Change Biology, 2018, 24(1): 536−551. |
| [24] | 王珂, 尹昀洲, 张明辉, 等. 林龄对红松人工林叶片-凋落物-土壤C、N、P生态化学计量特征的影响[J]. 西部林业科学, 2023, 52(2): 55−61, 74. WANG Ke, YIN Yunzhou, ZHANG Minghui, et al. Effects of stand age on ecological stoichiometric characteristics of C, N and P in leaves, litter and soil of Pinus koraiensis plantation[J]. Western Forestry Science, 2023, 52(2): 55−61, 74. |
| [25] | 赵敏, 马宝有, 赵江平, 等. 黄土丘陵沟壑区不同林龄刺槐叶片氮、磷重吸收特征[J]. 应用与环境生物学报, 2023, 29(2): 401−407. ZHAO Min, MA Baoyou, ZHAO Jiangping, et al. Characteristics of leaf nutrient resorption of Robinia pseudoacacia at different ages in hilly and Gully Regions[J]. Chinese Journal of Applied and Environmental Biology, 2023, 29(2): 401−407. |
| [26] | WANG Ning, FU Fengzhen, WANG Baitian, et al. Carbon, nitrogen and phosphorus stoichiometry in Pinus tabulaeformis forest ecosystems in warm temperate Shanxi Province, North China[J]. Journal of Forestry Research, 2018, 29(6): 1665−1673. |
| [27] | LIANG Siyi, TAN Tian, WU Danzi, et al. Seasonal variations in carbon, nitrogen, and phosphorus of Pinus yunnanenis at different stand ages[J/OL]. Frontiers in Plant Science, 2023, 14: 1107961[2024-08-01]. DOI: 10.3389/fpls.2023.1107961. |
| [28] | 孙建丽, 吴俊文, 赵娟钧, 等. 幼龄华山松不同部位碳氮磷生态化学计量的季节变化[J]. 植物营养与肥料学报, 2024, 30(3): 563−574. SUN Jianli, WU Junwen, ZHAO Juanjun, et al. Seasonal variation of C, N and P ecological stoichiometric characteristics in different organs of young Pinus armandii forest[J]. Journal of Plant Nutrition and Fertilizers, 2024, 30(3): 563−574. |
| [29] | TANG Zhiyao, XU Wenting, ZHOU Guoyi, et al. Patterns of plant carbon, nitrogen, and phosphorus concentration in relation to productivity in China’s terrestrial ecosystems[J]. Proceedings of the National Academy of Sciences of the United States of America, 2018, 115(16): 4033−4038. |
| [30] | 赵姣. 柠檬醛型樟枝叶氮磷钾含量生长季动态变化特征[J]. 中南林业科技大学学报, 2022, 42(1): 20−26. ZHAO Jiao. Analysis of nitrogen, phosphorus and potassium accumulation in leaves and branches of Cinnamomum spp. ct. citralifera Z. N. Jin[J]. Journal of Central South University of Forestry & Technology, 2022, 42(1): 20−26. |
| [31] | GÜSEWELL S. N∶P ratios in terrestrial plants: variation and functional significance[J]. New Phytologist, 2004, 164(2): 243−266. |