Degradation leads to dramatic decrease in topsoil but not subsoil root biomass in an alpine meadow on the Tibetan Plateau, China 被引量：3

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摘要 Understanding the effects of degradation on belowground biomass(BGB)is essential for assessment of carbon budget of the alpine meadow ecosystem on the Tibetan Plateau,China.This ecosystem has been undergoing serious degradation owing to climate change and anthropogenic activities.This study examined the response of the vertical distribution of plant BGB to degradation and explored the underlying mechanisms in an alpine meadow on the Tibetan Plateau.A field survey was conducted in an alpine meadow with seven sequential degrees of degradation in the Zoige Plateau on the Tibetan Plateau during the peak growing season of 2018.We measured aboveground biomass(AGB),BGB,soil water content(SWC),soil bulk density(SBD),soil compaction(SCOM),soil organic carbon(SOC),soil total nitrogen(STN),soil total phosphorus(STP),soil available nitrogen(SAN),and soil available phosphorus(STP)in the 0-30 cm soil layers.Our results show that degradation dramatically decreased the BGB in the 0-10 cm soil layer(BGB0-10)but slightly increased the subsoil BGB.The main reason may be that the physical-chemical properties of surface soil were more sensitive to degradation than those of subsoil,as indicated by the remarked positive associations of the trade-off value of BGB0-10 with SWC,SCOM,SOC,STN,SAN,and STP,as well as the negative correlation between the trade-off value of BGB0-10 and SBD in the soil layer of 0-10 cm.In addition,an increase in the proportion of forbs with increasing degradation degree directly affected the BGB vertical distribution.The findings suggest that the decrease in the trade-off value of BGB0-10 in response to degradation might be an adaptive strategy for the degradation-induced drought and infertile soil conditions.This study can provide theoretical support for assessing the effects of degradation on the carbon budget and sustainable development in the alpine meadow ecosystem on the Tibetan Plateau as well as other similar ecosystems in the world.

作者 ZHANG Zhenchao LIU Miao SUN Jian WEI Tianxing

机构地区 Synthesis Research Centre of Chinese Ecosystem Research Network State Key Laboratory of Soil Erosion and Dryland Farming on the Loess Plateau Arid Land Research Center School of Soil and Water Conservation

出处《Journal of Arid Land》 SCIE CSCD 2020年第5期806-818,共13页 干旱区科学（英文版）

基金 the State Key Research Development Program of China(2016YFC0501803,2016YFC0501802) the China Postdoctoral Science Foundation(2017M620889) the Second Tibetan Plateau Scientific Expedition and Research(2019QZKK0405).

关键词 belowground biomass soil properties plant community structure DEGRADATION alpine meadow Tibetan Plateau

分类号 S812.2 [农业科学—草业科学]

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参考文献7

1王长庭,王启基,龙瑞军,景增春,史惠兰.高寒草甸群落植物多样性和初级生产力沿海拔梯度变化的研究[J].植物生态学报,2004,28(2):240-245. 被引量：119
2魏强,王芳,陈文业,朱丽,李广宇,戚登臣.黄河上游玛曲不同退化程度高寒草地土壤物理特性研究[J].水土保持通报,2010,30(5):16-21. 被引量：35
3孙建,张振超,董世魁.青藏高原高寒草地生态系统的适应性管理[J].草业科学,2019,36(4):933-938. 被引量：31
4马玉寿,郎百宁,李青云,施建军,董全民.江河源区高寒草甸退化草地恢复与重建技术研究[J].草业科学,2002,19(9):1-5. 被引量：122
5韩立辉,尚占环,任国华,王彦龙,马玉寿,李希来,龙瑞军.青藏高原“黑土滩”退化草地植物和土壤对秃斑面积变化的响应[J].草业学报,2011,20(1):1-6. 被引量：54
6ZHANG Zhen-chao,HOU Ge,LIU Miao,WEI Tian-xing,SUN Jian.Degradation induces changes in the soil C:N:P stoichiometry of alpine steppe on the Tibetan Plateau[J].Journal of Mountain Science,2019,16(10):2348-2360. 被引量：7
7Jian Sun,Shuli Niu,Jinniu Wang.Divergent biomass partitioning to aboveground and belowground across forests in China[J].Journal of Plant Ecology,2018,11(3):484-492. 被引量：3

二级参考文献82

1施建军,邱正强,马玉寿.“黑土型”退化草地上建植人工草地的经济效益分析[J].草原与草坪,2007,27(1):60-64. 被引量：21
2周华坤,赵新全,周立,刘伟,李英年,唐艳鸿.青藏高原高寒草甸的植被退化与土壤退化特征研究[J].草业学报,2005,14(3):31-40. 被引量：267
3魏兴琥,杨萍,李森,陈怀顺.超载放牧与那曲地区高山嵩草草甸植被退化及其退化指标的探讨[J].草业学报,2005,14(3):41-49. 被引量：50
4李希来,黄葆宁.青海黑土滩草地成因及治理途径[J].中国草地,1995,17(4):64-67. 被引量：60
5王一博,王根绪,沈永平,王彦莉.青藏高原高寒区草地生态环境系统退化研究[J].冰川冻土,2005,27(5):633-640. 被引量：74
6黄葆宁,李希来,戴海珍.试论青海“黑土滩”草地的退化特征及其成因[J].青海畜牧兽医杂志,1996,26(3):33-35. 被引量：8
7曾德慧,陈广生.生态化学计量学:复杂生命系统奥秘的探索[J].植物生态学报,2005,29(6):1007-1019. 被引量：513
8龙瑞军,董世魁,胡自治.西部草地退化的原因分析与生态恢复措施探讨[J].草原与草坪,2005,25(6):3-7. 被引量：105
9Hai-Tao Li,Xing-Guo Han,Jian-Guo Wu.Variant Scaling Relationship for Mass-Density Across Tree-Dominated Communities[J].Journal of Integrative Plant Biology,2006,48(3):268-277. 被引量：9
10王文颖,王启基,景增春,李世雄,史惠兰.江河源区高山嵩草草甸覆被变化对植物群落特征及多样性的影响[J].资源科学,2006,28(2):118-124. 被引量：15

共引文献355

1孙乐,王毅,李洋,孙建.青藏高原高寒草地群落叶片功能性状对降水的非线性响应[J].生态学报,2023,43(2):756-767. 被引量：1
2杨晓霞,赵新全,董全民,俞旸,刘文亭,张春平,曹铨.青藏高原高寒草地适应性管理释义:概念及实现途径[J].科学通报,2023,68(19):2526-2536.
3Hu, YuKun,Li, KaiHui,Gong, YanMing,Yin, Wei.Plant diversity-productivity patterns in the alpine steppe environment of the Central Tianshan Mountains[J].Journal of Arid Land,2009,1(1):43-48. 被引量：3
4王长庭,龙瑞军,丁路明,来德珍,李有福.草地生态系统中物种多样性、群落稳定性和生态系统功能的关系[J].草业科学,2005,22(6):1-7. 被引量：54
5刘兴良,史作民,杨冬生,刘世荣,杨玉坡,马钦彦.山地植物群落生物多样性与生物生产力海拔梯度变化研究进展[J].世界林业研究,2005,18(4):27-34. 被引量：45
6王长庭,龙瑞军,王启基,景增春,丁路明.不同类型高寒草地群落物种特征和均匀度的重要性[J].草地学报,2005,13(4):320-323. 被引量：17
7LIU Linshan,ZHANG Yili,BAI Wanqi,YAN Jianzhong.Characteristics of grassland degradation and driving forces in the source region of the Yellow River from 1985 to 2000[J].Journal of Geographical Sciences,2006,16(2):131-142. 被引量：22
8尚占环,龙瑞军,马玉寿,张黎敏,施建军,丁玲玲.黄河源区退化高寒草地土壤种子库:种子萌发的数量和动态[J].应用与环境生物学报,2006,12(3):313-317. 被引量：30
9王永健,陶建平,彭月.陆地植物群落物种多样性研究进展[J].广西植物,2006,26(4):406-411. 被引量：31
10吾买尔.吾守,阿德力.麦地.巴音布鲁克高寒草原沼泽植物群落研究[J].草食家畜,2006(4):11-13.

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1韩艳莉,陈克龙,汪诗平.黄河源区高寒草地植被碳储量研究——以果洛藏族自治州为例[J].国土与自然资源研究,2010(5):93-94. 被引量：9
2李海英,彭红春,王启基.高寒矮嵩草草甸不同退化演替阶段植物群落地上生物量分析[J].草业学报,2004,13(5):26-32. 被引量：59
3ZHAO Liang,LI Yingnian,ZHAO Xinquan,XU Shixiao,TANG Yanhong,YU Guirui,GU Song,DU Mingyuan,WANG Qinxue.Comparative study of the net exchange of CO_(2) in 3 types of vegetation ecosystems on the Qinghai-Tibetan Plateau[J].Chinese Science Bulletin,2005,50(16):1767-1774. 被引量：34
4周桔,雷霆.土壤微生物多样性影响因素及研究方法的现状与展望[J].生物多样性,2007,15(3):306-311. 被引量：170
5张顺谦,郭海燕,罗勇.气候变化和载畜量对若尔盖草地沙化的驱动力评价[J].中国草地学报,2007,29(5):64-71. 被引量：30
6王俊峰,王根绪,王一博,李元寿.青藏高原沼泽及高寒草甸生长期内CO_2排放[J].兰州大学学报（自然科学版）,2007,43(5):17-23. 被引量：13
7Qi-Wu Hu,Qin Wu,Guang-Min Cao,Dong Li,Rui-Jun Long,Yue-Si Wang.Growing Season Ecosystem Respirations and Associated Component Fluxes in Two Alpine Meadows on the Tibetan Plateau[J].Journal of Integrative Plant Biology,2008,50(3):271-279. 被引量：11
8赵亮,古松,周华坤,徐世晓,赵新全,李英年.青海省三江源区人工草地生态系统CO_2通量[J].植物生态学报,2008,32(3):544-554. 被引量：31
9程煜,洪伟,吴承祯,祁新华.木荷地上部分生物量分布特征与生产力[J].应用与环境生物学报,2009,15(3):318-322. 被引量：16
10仁青吉,武高林,任国华.放牧强度对青藏高原东部高寒草甸植物群落特征的影响[J].草业学报,2009,18(5):256-261. 被引量：104

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5Yuan Yanan.NEXT-LEVEL CHINA-MYANMAR RELATIONS Interview with Chinese Ambassador to Myanmar Chen Hai[J].China Report ASEAN,2020,5(6):16-17.
6行业[J].智能建筑与智慧城市,2020,0(1):5-5.
7JIA Guikang,OU Zhonghui,TANG Gaozhe.Investigation and Study on Plant Communities in Baise Forest Park[J].Journal of Landscape Research,2012,4(12):65-68. 被引量：1
8Xiaoning Shi,Minggang Zhu,Xiangdong Wang,Shaoxiong Zhou,Xin Wang,Meiling Zhang,Wei Li.Abnormal corrosion behavior of dual-main phase sintered(Ce,Nd)-Fe-B magnets in different sodium solutions[J].Journal of Rare Earths,2020,38(7):735-741. 被引量：2
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