Global S&T Development Trend Analysis Platform of Resources and Environment
DOI | 10.1111/gcb.14292 |
Partitioning of the net CO2 exchange using an automated chamber system reveals plant phenology as key control of production and respiration fluxes in a boreal peatland | |
Jarveoja, Jarvi1; Nilsson, Mats B.1; Gazovic, Michal1; Crill, Patrick M.2,3; Peichl, Matthias1 | |
2018-08-01 | |
发表期刊 | GLOBAL CHANGE BIOLOGY |
ISSN | 1354-1013 |
EISSN | 1365-2486 |
出版年 | 2018 |
卷号 | 24期号:8页码:3436-3451 |
文章类型 | Article |
语种 | 英语 |
国家 | Sweden |
英文摘要 | The net ecosystem CO2 exchange (NEE) drives the carbon (C) sink-source strength of northern peatlands. Since NEE represents a balance between various production and respiration fluxes, accurate predictions of its response to global changes require an in depth understanding of these underlying processes. Currently, however, detailed information of the temporal dynamics as well as the separate biotic and abiotic controls of the NEE component fluxes is lacking in peatland ecosystems. In this study, we address this knowledge gap by using an automated chamber system established across natural and trenching/vegetation removal plots to partition NEE into its production (i.e., gross and net primary production; GPP and NPP) and respiration (i.e., ecosystem, heterotrophic and autotrophic respiration; ER, Rh and Ra) fluxes in a boreal peatland in northern Sweden. Our results showed that daily NEE patterns were driven by GPP while variations in ER were governed by Ra rather than Rh. Moreover, we observed pronounced seasonal shifts in the Ra/Rh and above/belowground NPP ratios throughout the main phenological phases. Generalized linear model analysis revealed that the greenness index derived from digital images (as a proxy for plant phenology) was the strongest control of NEE, GPP and NPP while explaining considerable fractions also in the variations of ER and Ra. In addition, our data exposed greater temperature sensitivity of NPP compared to Rh resulting in enhanced C sequestration with increasing temperature. Overall, our study suggests that the temporal patterns in NEE and its component fluxes are tightly coupled to vegetation dynamics in boreal peatlands and thus challenges previous studies that commonly identify abiotic factors as key drivers. These findings further emphasize the need for integrating detailed information on plant phenology into process-based models to improve predictions of global change impacts on the peatland C cycle. |
英文关键词 | autotrophic and heterotrophic respiration biotic and abiotic controls boreal fen carbon dioxide climate change flux partitioning gross and net primary production vegetation phenology |
领域 | 气候变化 ; 资源环境 |
收录类别 | SCI-E |
WOS记录号 | WOS:000437284700015 |
WOS关键词 | GROSS PRIMARY PRODUCTION ; CARBON-DIOXIDE EXCHANGE ; TEMPERATE OMBROTROPHIC BOG ; EDDY COVARIANCE TECHNIQUE ; WATER-TABLE DEPTH ; NORTHERN PEATLAND ; SOIL RESPIRATION ; ECOSYSTEM RESPIRATION ; HOLOCENE CARBON ; HETEROTROPHIC RESPIRATION |
WOS类目 | Biodiversity Conservation ; Ecology ; Environmental Sciences |
WOS研究方向 | Biodiversity & Conservation ; Environmental Sciences & Ecology |
引用统计 | |
文献类型 | 期刊论文 |
条目标识符 | http://119.78.100.173/C666/handle/2XK7JSWQ/17477 |
专题 | 气候变化 资源环境科学 |
作者单位 | 1.Swedish Univ Agr Sci, Dept Forest Ecol & Management, Umea, Sweden; 2.Stockholm Univ, Dept Geol Sci, Stockholm, Sweden; 3.Bolin Ctr Climate Res, Stockholm, Sweden |
推荐引用方式 GB/T 7714 | Jarveoja, Jarvi,Nilsson, Mats B.,Gazovic, Michal,et al. Partitioning of the net CO2 exchange using an automated chamber system reveals plant phenology as key control of production and respiration fluxes in a boreal peatland[J]. GLOBAL CHANGE BIOLOGY,2018,24(8):3436-3451. |
APA | Jarveoja, Jarvi,Nilsson, Mats B.,Gazovic, Michal,Crill, Patrick M.,&Peichl, Matthias.(2018).Partitioning of the net CO2 exchange using an automated chamber system reveals plant phenology as key control of production and respiration fluxes in a boreal peatland.GLOBAL CHANGE BIOLOGY,24(8),3436-3451. |
MLA | Jarveoja, Jarvi,et al."Partitioning of the net CO2 exchange using an automated chamber system reveals plant phenology as key control of production and respiration fluxes in a boreal peatland".GLOBAL CHANGE BIOLOGY 24.8(2018):3436-3451. |
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