Very high CO2 exchange fluxes at the peak of the rainy season in a West African grazed semi-arid savanna ecosystem

IF 0.8 4区 社会学 Q4 ENVIRONMENTAL STUDIES
T. Tagesson, J. Ardö, I. Guiro, F. Cropley, C. Mbow, S. Horion, A. Ehammer, E. Mougin, C. Delon, C. Galy-Lacaux, R. Fensholt
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引用次数: 23

Abstract

Abstract Africa is a sink of carbon, but there are large gaps in our knowledge regarding the CO2 exchange fluxes for many African ecosystems. Here, we analyse multi-annual eddy covariance data of CO2 exchange fluxes for a grazed Sahelian semi-arid savanna ecosystem in Senegal, West Africa. The aim of the study is to investigate the high CO2 exchange fluxes measured at the peak of the rainy season at the Dahra field site: gross primary productivity and ecosystem respiration peaked at values up to −48 μmol CO2 m−2 s−1 and 20 μmol CO2 m−2 s−1, respectively. Possible explanations for such high fluxes include a combination of moderately dense herbaceous C4 ground vegetation, high soil nutrient availability and a grazing pressure increasing the fluxes. Even though the peak net CO2 uptake was high, the annual budget of −229 ± 7 ± 49 g C m−2 y−1 (±random errors ± systematic errors) is comparable to that of other semi-arid savanna sites due the short length of the rainy season. An inter-comparison between the open-path and a closed-path infrared sensor indicated no systematic errors related to the instrumentation. An uncertainty analysis of long-term NEE budgets indicated that corrections for air density fluctuations were the largest error source (11.3% out of 24.3% uncertainty). Soil organic carbon data indicated a substantial increase in the soil organic carbon pool for the uppermost .20 m. These findings have large implications for the perception of the carbon sink/source of Sahelian ecosystems and its response to climate change.
西非半干旱草原放牧生态系统雨季高峰期非常高的二氧化碳交换通量
非洲是一个碳汇,但我们对许多非洲生态系统的二氧化碳交换通量的了解还存在很大差距。本文分析了西非塞内加尔萨赫勒半干旱热带稀树草原放牧生态系统多年来CO2交换通量的涡动相关数据。本研究的目的是研究达喀尔地区雨季高峰期的高CO2交换通量:总初级生产力和生态系统呼吸的峰值分别高达- 48 μmol CO2 m−2 s−1和20 μmol CO2 m−2 s−1。对这种高通量的可能解释包括:中等密度的草本C4地面植被、高土壤养分有效性和增加通量的放牧压力。尽管净CO2吸收量峰值较高,但由于雨季较短,年预算为- 229±7±49 g C m - 2 y - 1(±随机误差±系统误差)与其他半干旱热带草原遗址相当。开放路径和封闭路径红外传感器之间的相互比较表明,没有与仪器相关的系统误差。对长期新能源经济预算的不确定性分析表明,对空气密度波动的修正是最大的误差来源(24.3%不确定性中的11.3%)。土壤有机碳数据表明,土壤有机碳库在最上层20 m显著增加。这些发现对认识萨赫勒生态系统的碳汇/碳源及其对气候变化的响应具有重要意义。
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来源期刊
CiteScore
5.20
自引率
0.00%
发文量
5
期刊介绍: DJG is an interdisciplinary, international journal that publishes peer reviewed research articles on all aspects of geography. Coverage includes such topics as human geography, physical geography, human-environment interactions, Earth Observation, and Geographical Information Science. DJG also welcomes articles which address geographical perspectives of e.g. environmental studies, development studies, planning, landscape ecology and sustainability science. In addition to full-length papers, DJG publishes research notes. The journal has two annual issues. Authors from all parts of the world working within geography or related fields are invited to publish their research in the journal.
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