[1] |
Bai Y, Wong CP, Jiang B, Hughes AC, Wang M, Wang Q (2018). Developing China’s Ecological Redline Policy using ecosystem services assessments for land use planning. Nature Communications, 9, 3034. DOI: 10.1038/s41467-018-05306-1.
DOI
|
[2] |
Baldocchi DD (2020). How eddy covariance flux measurements have contributed to our understanding of global change biology. Global Change Biology, 26, 242-260.
DOI
PMID
|
[3] |
Biederman JA, Scott RL, Goulden ML, Vargas R, Litvak ME, Kolb TE, Yepez EA, Oechel WC, Blanken PD, Bell TW, Garatuza-Payan J, Maurer GE, Dore S, Burns SP (2016). Terrestrial carbon balance in a drier world: the effects of water availability in southwestern North America. Global Change Biology, 22, 1867-1879.
DOI
PMID
|
[4] |
Chen SP, You CH, Hu ZM, Chen Z, Zhang LM, Wang QF (2020). Eddy covariance technique and its applications in flux observations of terrestrial ecosystems. Chinese Journal of Plant Ecology, 44, 291-304.
DOI
URL
|
|
[ 陈世苹, 游翠海, 胡中民, 陈智, 张雷明, 王秋凤 (2020). 涡度相关技术及其在陆地生态系统通量研究中的应用. 植物生态学报, 44, 291-304.]
DOI
|
[5] |
Chen Y, Li YQ, Wang XY, Yao CP, Niu YY (2022). Risk and countermeasures of global change in ecologically vulnerable regions of China. Journal of Desert Research, 42, 148-158.
|
|
[ 陈云, 李玉强, 王旭洋, 姚彩萍, 牛亚毅 (2022). 中国生态脆弱区全球变化风险及应对技术途径和主要措施. 中国沙漠, 42, 148-158.]
|
[6] |
Feng S, Liu X, Zhao W, Yao Y, Zhou A, Liu X, Pereira P (2022). Key areas of ecological restoration in Inner Mongolia based on ecosystem vulnerability and ecosystem service. Remote Sensing, 14, 2729. DOI: 10.3390/rs14122729.
DOI
URL
|
[7] |
Forzieri G, Miralles DG, Ciais P, Alkama R, Ryu Y, Duveiller G, Zhang K, Robertson E, Kautz M, Martens B, Jiang C, Arneth A, Georgievski G, Li W, Ceccherini G, et al. (2020). Increased control of vegetation on global terrestrial energy fluxes. Nature Climate Change, 10, 356-362.
DOI
|
[8] |
Han C, Liu P, Mu YM, Yuan Y, Hao SR, Tian Y, Zha TS, Jia X (2022). Response of ecosystem carbon balance to asymmetric daytime vs nighttime warming in Artemisia ordosica shrublands. Chinese Journal of Plant Ecology, 46, 1473-1485.
|
|
[ 韩聪, 刘鹏, 母艳梅, 原媛, 郝少荣, 田赟, 查天山, 贾昕 (2022). 黑沙蒿灌丛生态系统碳平衡对昼夜非对称增温的响应. 植物生态学报, 46, 1473-1485.]
|
[9] |
Han L, Wang QF, Chen Z, Yu GR, Zhou GS, Chen SP, Li YN, Zhang YP, Yan JH, Wang HM, Han SJ, Wang YF, Sha LQ, Shi PL, Zhang YJ, et al. (2020). Spatial patterns and climate controls of seasonal variations in carbon fluxes in Chinaʼs terrestrial ecosystems. Global and Planetary Change, 189, 103175. DOI: 10.1016/j.gloplacha.2020.103175.
DOI
URL
|
[10] |
Hu Z, Shi H, Cheng K, Wang YP, Piao S, Li Y, Zhang L, Xia J, Zhou L, Yuan W, Running S, Li L, Hao Y, He N, Yu Q, Yu G (2018). Joint structural and physiological control on the interannual variation in productivity in a temperate grassland: a data-model comparison. Global Change Biology, 24, 2965-2979.
DOI
PMID
|
[11] |
Huang M, Piao S, Ciais P, Peñuelas J, Wang X, Keenan TF, Peng S, Berry JA, Wang K, Mao J, Alkama R, Cescatti A, Cuntz M, de Deurwaerder H, Gao M, et al. (2019). Air temperature optima of vegetation productivity across global biomes. Nature Ecology & Evolution, 3, 772-779.
|
[12] |
Jung M, Reichstein M, Schwalm CR, Huntingford C, Sitch S, Ahlström A, Arneth A, Camps-Valls G, Ciais P, Friedlingstein P, Gans F, Ichii K, Jain AK, Kato E, Papale D, et al. (2017). Compensatory water effects link yearly global land CO2 sink changes to temperature. Nature, 541, 516-520.
DOI
|
[13] |
Li HQ, Zhang YR, Zhang FW, Ma WJ, Luo FL, Wang CY, Yang YS, Zhang LM, Li YN (2022). Application of boosted regression trees for the gap-filling to flux dataset in an alpine scrubland of Qingzang Plateau. Chinese Journal of Plant Ecology, 46, 1437-1447.
|
|
[ 李红琴, 张亚茹, 张法伟, 马文婧, 罗方林, 王春雨, 杨永胜, 张雷明, 李英年 (2022). 增强回归树模型在青藏高原高寒灌丛通量数据插补中的应用. 植物生态学报, 46, 1437-1447.]
|
[14] |
Lian X, Piao S, Chen A, Huntingford C, Fu B, Li LZX, Huang J, Sheffield J, Berg AM, Keenan TF, McVicar TR, Wada Y, Wang X, Wang T, Yang Y, Roderick ML (2021). Multifaceted characteristics of dryland aridity changes in a warming world. Nature Reviews Earth & Environment, 2, 232-250.
|
[15] |
Lin Y, Chen Z, Yang M, Chen SP, Gao YH, Liu R, Hao YB, Xin XP, Zhou L, Yu GR (2022). Temporal and spatial variations of ecosystem photosynthetic parameters in arid and semi-arid areas of China and its influencing factors. Chinese Journal of Plant Ecology, 46, 1461-1472.
|
|
[ 林雍, 陈智, 杨萌, 陈世苹, 高艳红, 刘冉, 郝彦宾, 辛晓平, 周莉, 于贵瑞 (2022). 中国干旱半干旱区生态系统光合参数的时空变异及其影响因素. 植物生态学报, 46, 1461-1472.]
|
[16] |
Liu P, Black TA, Jassal RS, Zha TS, Nesic Z, Barr AG, Helgason WD, Jia X, Tian Y, Stephens JJ, Ma JY (2019). Divergent long-term trends and interannual variation in ecosystem resource use efficiencies of a southern boreal old black spruce forest 1999-2017. Global Change Biology, 25, 3056-3069.
DOI
PMID
|
[17] |
Niu S, Fu Z, Luo Y, Stoy PC, Keenan TF, Poulter B, Zhang L, Piao S, Zhou X, Zheng H, Han J, Wang Q, Yu G (2017). Interannual variability of ecosystem carbon exchange: from observation to prediction. Global Ecology and Biogeography, 26, 1225-1237.
DOI
URL
|
[18] |
Piao S, Wang X, Wang K, Li X, Bastos A, Canadell JG, Ciais P, Friedlingstein P, Sitch S (2020). Interannual variation of terrestrial carbon cycle: issues and perspectives. Global Change Biology, 26, 300-318.
DOI
PMID
|
[19] |
Reid RS, Fernández-Giménez ME, Galvin KA (2014). Dynamics and resilience of rangelands and pastoral peoples around the globe. Annual Review of Environment and Resources, 39, 217-242.
DOI
URL
|
[20] |
Wang LS, Tong XJ, Meng P, Zhang JS, Liu PR, Li J, Zhang JR, Zhou Y (2022). Energy flux and evapotranspiration of two typical plantations in semi-arid area of western Liaoning, China. Chinese Journal of Plant Ecology, 46, 1508-1522.
|
|
[ 王俐爽, 同小娟, 孟平, 张劲松, 刘沛荣, 李俊, 张静茹, 周宇 (2022). 辽西半干旱地区两种典型人工林生态系统能量通量及蒸散特征. 植物生态学报, 46, 1508-1522.]
|
[21] |
Wang XF, Ma X, Feng XM, Zhou CW, Fu BJ (2019). Spatial-temporal characteristics of trade-off and synergy of ecosystem services in key vulnerable ecological areas in China. Acta Ecologica Sinica, 39, 7344-7355.
|
|
[ 王晓峰, 马雪, 冯晓明, 周潮伟, 傅伯杰 (2019). 重点脆弱生态区生态系统服务权衡与协同关系时空特征. 生态学报, 39, 7344-7355.]
|
[22] |
Wang YB, You CH, Tan XR, Chen BY, Xu MZ, Chen SP (2022). Seasonal and interannual variations in energy balance closure over arid and semi-arid grasslands in northern China. Chinese Journal of Plant Ecology, 46, 1448-1460.
|
|
[ 王彦兵, 游翠海, 谭星儒, 陈波宇, 许梦真, 陈世苹 (2022). 中国北方干旱半干旱区草原生态系统能量平衡闭合的季节和年际变异. 植物生态学报, 46, 1448-1460.]
|
[23] |
Xia JY, Wang J, Niu SL (2020). Research challenges and opportunities for using big data in global change biology. Global Change Biology, 26, 6040-6061.
DOI
URL
|
[24] |
Yang M, Yu GR (2022). Coupling-decoupling of soil CO2 and CH4 fluxes and their responses to temperature in arid and semi-arid regions of China. Chinese Journal of Plant Ecology, 46, 1497-1507.
|
|
[ 杨萌, 于贵瑞 (2022). 中国干旱半干旱区土壤CO2与CH4通量的耦联解耦及其对温度的响应. 植物生态学报, 46, 1497-1507.]
|
[25] |
Yi SH, Chen SP, Li YN, Hu ZM (2022). Collaborative monitoring network of ecologically fragile areas in China and its application in carrying capacity research. Chinese Journal of Applied Ecology, 33, 2271-2278.
|
|
[ 宜树华, 陈世苹, 李英年, 胡中民 (2022). 中国生态脆弱区联网协同观测及其在承载力研究中的应用. 应用生态学报, 33, 2271-2278.]
DOI
|
[26] |
Yu GR, Zhang XM, Zhao DS, Deng SQ (2022). Discussion on the scientific concepts of regional resources and environmental carrying capacity and its ecological basis. Chinese Journal of Applied Ecology, 33, 577-590.
|
|
[ 于贵瑞, 张雪梅, 赵东升, 邓思琪 (2022). 区域资源环境承载力科学概念及其生态学基础的讨论. 应用生态学报, 33, 577-590.]
DOI
|
[27] |
Yue C, Ciais P, Houghton RA, Nassikas AA (2020). Contribution of land use to the interannual variability of the land carbon cycle. Nature Communications, 11, 3170. DOI: 10.1038/s41467-020-16953-8.
DOI
PMID
|
[28] |
Zheng ZT, Zhang YJ (2022). Variation in ecosystem water use efficiency and its attribution analysis during 1982-2018 in Qingzang Plateau. Chinese Journal of Plant Ecology, 46, 1486-1496.
|
|
[ 郑周涛, 张扬建 (2022). 1982-2018年青藏高原水分利用效率变化及归因分析. 植物生态学报, 46, 1486-1496.]
|