黄土区不同土地利用类型下砂质壤土地表CO2通量变化特征——以清凉寺沟流域为例
收稿日期: 2020-11-11
修回日期: 2021-04-03
网络出版日期: 2021-08-03
基金资助
国家自然科学基金面上基金项目(41671213);陕西省博士后科学基金项目(2016BSHEDZZ27)
Study on the change of surface CO2 flux in sandy loamy soil under different land use types: An example from the Qingliangsi ditch watershed
Received date: 2020-11-11
Revised date: 2021-04-03
Online published: 2021-08-03
利用LI-8100A土壤碳通量自动测量系统对晋西北黄土丘陵沟壑区清凉寺沟流域地表土壤CO2通量进行测量,探讨了CO2通量时空变化特征、不同土地利用类型下的CO2通量特征以及环境因子对CO2通量的影响,对于晋西北黄土丘陵沟壑区小流域地区地表土壤CO2通量的研究进行补充。结果表明:(1) CO2通量在生长季呈现单峰变化,于日出前后达单日最低值,在16:00—22:00达到单日最高值;在非生长季则呈现不规律变化。(2) 农耕地的CO2通量相较于荒草地以及枣林地的CO2通量要低;不同季节的CO2通量关系为8月CO2通量最大,5月CO2通量次之,11月CO2通量最低。(3) 地表土壤CO2通量与光合有效辐射、大气温度、土壤温度、土壤含水率、土壤有机质、土壤质地等因素密切相关,通过科学的土地利用方式可有效提高土壤的固碳能力。
许志平,邵天杰,张连凯,邵明玉,牛俊杰 . 黄土区不同土地利用类型下砂质壤土地表CO2通量变化特征——以清凉寺沟流域为例[J]. 干旱区研究, 2021 , 38(4) : 1000 -1009 . DOI: 10.13866/j.azr.2021.04.11
Global climate change is closely related to the carbon cycle, and exploring changes in surface carbon emissions is an essential aspect of climate change research. In this study, the CO2 fluxes of surface soils in Qingliangsigou watershed of Loess Hills and Gullies in northwest Shanxi were measured using an LI-8100A soil carbon flux automatic measurement system, the soil particle size was measured using a laser particle size analyzer (mastersizer 2000), the soil organic matter was measured using a chemical titration method, and the soil water content was measured using the drying method. Additionally, we explored the diurnal and spatial variation of surface soil CO2 fluxes, temporal and spatial changes, CO2 fluxes under different land use types, and the influence of environmental factors on surface soil CO2 fluxes to complement the study of surface soil CO2 fluxes in small watershed areas in the Loess Hills and Gullies of northwest Shanxi. We found that CO2 fluxes showed a single peak in variation during the growing season, reaching a single day minimum around sunrise and a single day maximum between 16:00 and 22:00, and in the non-growing season, there was irregular variation. The CO2 fluxes of farmland were lower than the CO2 fluxes of waste grassland and jujube forest land. The highest CO2 fluxes were observed in August, followed by May, and the lowest CO2 flux was in November. The CO2 flux of surface soil was closely related to photosynthetic effective radiation, atmospheric temperature, soil temperature, soil water content, soil organic matter, and soil texture. Therefore, the carbon fixation of soil can be effectively improved through scientific land use. In conclusion, the results of this study can be applied to most of the Loess Plateau and used to improve the ecological environment.
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