|Table of Contents|

Research Progress of Grassland Biomass

《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:
2019年09
Page:
159-163
Research Field:
Publishing date:

Info

Title:
Research Progress of Grassland Biomass
Author(s):
ZHA Xianghao12WANG Yujie13LI Youwen1WANG Chao1MO Zhixin1
(1.College of Chemical and Environmental Sciences,University of Kashgar,Kashgar,Xinjiang 844000;2.Xinjiang Biomass Solid Waste Reclamation Technology and Engineering Center,Kashgar,Xinjiang 844000;3.College of Life Science,Fujian Agriculture and Forestry University,Fuzhou,Fujian 350000)
Keywords:
grasslandsoil carbon densityresearch progress
PACS:
-
DOI:
10.11937/bfyy.20181488
Abstract:
Grassland ecosystems play a very important role in the global terrestrial ecosystems,and carbon storage capacity is a key factor in estimating the amount of carbon-containing gases absorbed and emitted by terrestrial ecosystems.Carbon density is one of the important indicators to measure carbon storage capacity,which plays an important role in determining carbon sinks,studying the carbon cycle of ecosystems and formulating sound policies to mitigate global change.This study summarized and summarized the research status of soil carbon density in grassland by domestic and foreign researchers,and analyzed the main factors that affect soil carbon density in grassland,finally,the research prospect of the response of carbon density to changes was proposed,and it was considered that the study on inorganic carbon density of grassland soil was in a long-term state of shortage to a large extent,so it was necessary to strengthen the study on inorganic carbon.

References:

[1]蒋高明.草原生态系统[J].绿色中国,2017(10):54-59.[2]方精云,杨元合,马文红,等.中国草地生态系统碳库及其变化[J].中国科学:生命科学,2010(7):566-57.[3]王穗子,樊江文,刘帅.中国草地碳库估算差异性综合分析[J].草地学报,2017(5):905-913.[4]田福平,师尚礼.紫花苜蓿草地土壤碳密度年际变化研究[J].草原与草坪,2015(6):8-13.[5]兰志龙.陕北黄土区不同土地利用方式对深层土壤水和碳分布的影响[D].杨凌:西北农林科技大学,2017.[6]霍艳双,杨波,杨雪栋,等.草地土壤有机碳研究进展[J].中国草地学报,2014(6):90-96.[7]POST W M,EMANUEL W R,ZINKE P J,et al.Soil carbon pools and world life zones[J].Nature,1982,298(5870):156.[8]PRENTICE I C.Biome modelling and the carbon cycle[M]//NATO ASI Series.The Global Carbon Cycle.Heidelberg:Springer-Verlag,1993:219-238.[9]CARLOS C P,BRUNO B,OFELIA G,et al.Soil organic carbon vs.bulk density following temperate grassland afforestation[J].Environmental Processes,2017,4(1):75-92.[10]王渊刚,罗格平,王玉辉,等.亚洲中部干旱区植被与土壤碳密度分析[J].干旱区地理,2014(2):239-249.[11]HU P L,LIU S J,YE Y Y,et al.Effects of environmental factors on soil organic carbon under natural or managed vegetation restoration[J].Land Degradation & Development,2018,29(3):387-397.[12]ABDALLA M,HASTINGS A,CHADWICK D R,et al.Critical review of the impacts of grazing intensity on soil organic carbon storage and other soil quality indicators in extensively managed grasslands[J].Agriculture,Ecosystems & Environment,2018,253:62-81.[13]de MOTTE L G,MAMADOU O,BECKERS Y,et al.Rotational and continuous grazing does not affect the total net ecosystem exchange of a pasture grazed by cattle but modifies CO2 exchange dynamics[J].Agriculture,Ecosystems & Environment,2018,253:157-165.[14]田政,吴秀芹,谢芮,等.内蒙古主要草地类型土壤有机碳密度对比[J].中国水土保持科学,2014(4):8-13.[15]张艳.内蒙古典型草原不同群落类型土壤碳库特征及其对草地退化的响应[D].呼和浩特:内蒙古大学,2017.[16]陈露.黄土高原塬区多年生栽培草地表层土壤碳库组成及其特征[D].兰州:兰州大学,2010.[17]苏培玺,周紫鹃,侍瑞,等.高寒草毡层基本属性与固碳能力沿水分和海拔梯度的变化[J].生态学报,2018(3):1040-1052.[18]刘立.东阿拉善高原草地土壤碳密度空间分布及碳储量估算[D].兰州:兰州大学,2014.[19]查向浩.喀什地区与克州草地生态系统生物量及碳密度调查分析[D].乌鲁木齐:新疆农业大学,2014.[20]韩文娟,盛建东,谷海斌,等.新疆伊犁地区典型草地土壤无机碳分布特征[J].新疆农业大学学报,2015(2):140-145.[21]张芳,熊黑钢,冯娟,等.天山北麓新人工绿洲扩张过程中的碳库格局变化与碳库迁移[J].生态学报,2017(23):7862-7871.[22]江世高.贺兰山西坡不同草地类型土壤碳特征及固碳潜力[D].兰州:兰州大学,2014.[23]周恒,时永杰,胡宇,等.不同生长年限紫花苜蓿草地土壤团聚体有机碳分布特征[J].中国土壤与肥料,2017(1):1-6.[24]张彦军,郭胜利,刘庆芳,等.田间条件下黑垆土基础呼吸的季节和年际变化特征[J].生态学报,2013,33(22):7270-7276.[25]杨成德,龙瑞军,陈秀蓉,等.东祁连山不同高寒草地类型土壤表层碳、氮、磷密度特征[J].中国草地学报,2008(1):1-5.[26]安如,陆彩红,王慧麟,等.三江源典型区草地退化Hyperion高光谱遥感识别研究[J].武汉大学学报(信息科学版),2018,43(3):399-405.[27]闫俊杰,刘海军,崔东,等.近15年新疆伊犁河谷草地退化时空变化特征[J].草业科学,2018(3):508-520.[28]徐敏云.草地利用方式对农牧交错带土壤碳密度的影响[C].呼和浩特:第八届博士生学术年会论文摘要集,2010:2.[29]杜宝红,高翠萍,哈达朝鲁.不同放牧强度对锡林郭勒典型草原生产力及碳储量的影响[J].水土保持研究,2018(1):139-146,152.[30]牛钰杰,杨思维,王贵珍,等.放牧强度对高寒草甸土壤理化性状和植物功能群的影响[J].生态学报,2018(14):1-10.[31]李寅龙,刘星岑.不同放牧强度影响下荒漠草原土壤物理性质变化研究[J].内蒙古科技与经济,2018(4):51-53.[32]熊炳桥,赵丽娅,高丹丹.围封对退化沙质草地植物群落的影响[J].中国沙漠,2018(2):324-328.[33]刘晋.围封对辽宁西北草地有机碳储量的影响[D].沈阳:辽宁大学,2017.[34]张建鹏,李玉强,赵学勇,等.围封对沙漠化草地土壤理化性质和固碳潜力恢复的影响[J].中国沙漠,2017,37(3):491-499.[35]韩丛丛,杨阳,刘秉儒,等.围封年限对荒漠草原土壤有机碳、全氮、全磷与微生物量碳、氮等的影响[J].江苏农业科学,2017,45(16):260-263.[36]韩可欣,禹朴家,韩东亮,等.开垦年限对松嫩碱化草地土壤碳库的影响[J].土壤通报,2017,48(1):127-133.[37]韩可欣.碱化草地开垦对土壤碳库储量的影响[D].乌鲁木齐:新疆农业大学,2016.[38]张晴晴,梁庆伟,娜日苏,等.刈割对天然草地影响的研究进展[J].畜牧与饲料科学,2018,39(1):33-42.[39]贺少轩.黄土高原丘陵沟壑区坡耕地撂荒后自然恢复草地碳动态[D].杨凌:西北农林科技大学,2015.[40]刘淑丽,林丽,郭小伟,等.青海省高寒草地土壤无机碳储量空间分异特征[J].生态学报,2014(20):5953-5961.[41]韩文娟,盛建东,谷海斌,等.新疆伊犁地区典型草地土壤无机碳分布特征[J].新疆农业大学学报,2015(2):140-145.[42]韩文娟.新疆天山北坡典型草地土壤无机碳特征[D].乌鲁木齐:新疆农业大学,2015.[43]张蓓蓓,刘芳,丁金枝,等.青藏高原高寒草地3米深度土壤无机碳库及分布特征[J].植物生态学报,2016(2):93-101.

Memo

Memo:
-
Last Update: 2019-06-13