Yingnian Li scite author profile

The FLUXNET2015 dataset provides ecosystem-scale data on CO 2 , water, and energy exchange between the biosphere and the atmosphere, and other meteorological and biological measurements, from 212 sites around the globe (over 1500 site-years, up to and including year 2014). These sites, independently managed and operated, voluntarily contributed their data to create global datasets. Data were quality controlled and processed using uniform methods, to improve consistency and intercomparability across sites. The dataset is already being used in a number of applications, including ecophysiology studies, remote sensing studies, and development of ecosystem and Earth system models. FLUXNET2015 includes derived-data products, such as gap-filled time series, ecosystem respiration and photosynthetic uptake estimates, estimation of uncertainties, and metadata about the measurements, presented for the first time in this paper. In addition, 206 of these sites are for the first time distributed under a Creative Commons (CC-BY 4.0) license. This paper details this enhanced dataset and the processing methods, now made available as open-source codes, making the dataset more accessible, transparent, and reproducible.

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Effects of vegetation control on ecosystem water use efficiency within and among four grassland ecosystems in China

et al. 2008

Global Change Biology

305

228

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Through 2-3-year (2003)(2004)(2005) continuous eddy covariance measurements of carbon dioxide and water vapor fluxes, we examined the seasonal, inter-annual, and interecosystem variations in the ecosystem-level water use efficiency (WUE, defined as the ratio of gross primary production, GPP, to evapotranspiration, ET) at four Chinese grassland ecosystems in the Qinghai-Tibet Plateau and North China. Representing the most prevalent grassland types in China, the four ecosystems are an alpine swamp meadow ecosystem, an alpine shrub-meadow ecosystem, an alpine meadow-steppe ecosystem, and a temperate steppe ecosystem, which illustrate a water availability gradient and thus provide us an opportunity to quantify environmental and biological controls on ecosystem WUE at different spatiotemporal scales. Seasonally, WUE tracked closely with GPP at the four ecosystems, being low at the beginning and the end of the growing seasons and high during the active periods of plant growth. Such consistent correspondence between WUE and GPP suggested that photosynthetic processes were the dominant regulator of the seasonal variations in WUE. Further investigation indicated that the regulations were mainly due to the effect of leaf area index (LAI) on carbon assimilation and on the ratio of transpiration to ET (T/ET). Besides, except for the swamp meadow, LAI also controlled the year-to-year and site-to-site variations in WUE in the same way, resulting in the years or sites with high productivity being accompanied by high WUE. The general good correlation between LAI and ecosystem WUE indicates that it may be possible to predict grassland ecosystem WUE simply with LAI. Our results also imply that climate change-induced shifts in vegetation structure, and consequently LAI may have a significant impact on the relationship between ecosystem carbon and water cycles in grasslands.

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Grazing intensity alters soil respiration in an alpine meadow on the Tibetan plateau

Cao

Tang

et al. 2004

Soil Biology and Biochemistry

357

225

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Temperature and biomass influences on interannual changes in CO₂ exchange in an alpine meadow on the Qinghai‐Tibetan Plateau

Kato

Tang

Gu³

et al. 2006

Global Change Biology

273

180

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Three years of eddy covariance measurements were used to characterize the seasonal and interannual variability of the CO 2 fluxes above an alpine meadow (3250 m a.s.l.) on the Qinghai-Tibetan Plateau, China. This alpine meadow was a weak sink for atmospheric CO 2 , with a net ecosystem production (NEP) of 78.5, 91.7, and 192.5 g C m À2 yr À1 in 2002, 2003, and 2004, respectively. The prominent, high NEP in 2004 resulted from the combination of high gross primary production (GPP) and low ecosystem respiration (R e ) during the growing season. The period of net absorption of CO 2 in 2004, 179 days, was 10 days longer than that in 2002 and 5 days longer than that in 2003. Moreover, the date on which the mean air temperature first exceeded 5.0 1C was 10 days earlier in 2004 (DOY110) than in 2002 or 2003. This date agrees well with that on which the green aboveground biomass (Green AGB) started to increase. The relationship between light-use efficiency and Green AGB was similar among the three years. In 2002, however, earlier senescence possibly caused low autumn GPP, and thus the annual NEP, to be lower. The low summertime R e in 2004 was apparently caused by lower soil temperatures and the relatively lower temperature dependence of R e in comparison with the other years. These results suggest that (1) the Qinghai-Tibetan Plateau plays a potentially significant role in global carbon sequestration, because alpine meadow covers about one-third of this vast plateau, and (2) the annual NEP in the alpine meadow was comprehensively controlled by the temperature environment, including its effect on biomass growth.

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Spatial patterns and climate drivers of carbon fluxes in terrestrial ecosystems of China

Zhu

et al. 2012

Global Change Biology

275

179

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Understanding the dynamics and underlying mechanism of carbon exchange between terrestrial ecosystems and the atmosphere is one of the key issues in global change research. In this study, we quantified the carbon fluxes in different terrestrial ecosystems in China, and analyzed their spatial variation and environmental drivers based on the long-term observation data of ChinaFLUX sites and the published data from other flux sites in China. The results indicate that gross ecosystem productivity (GEP), ecosystem respiration (ER), and net ecosystem productivity (NEP) of terrestrial ecosystems in China showed a significantly latitudinal pattern, declining linearly with the increase of latitude. However, GEP, ER, and NEP did not present a clear longitudinal pattern. The carbon sink functional areas of terrestrial ecosystems in China were mainly located in the subtropical and temperate forests, coastal wetlands in eastern China, the temperate meadow steppe in the northeast China, and the alpine meadow in eastern edge of Qinghai-Tibetan Plateau. The forest ecosystems had stronger carbon sink than grassland ecosystems. The spatial patterns of GEP and ER in China were mainly determined by mean annual precipitation (MAP) and mean annual temperature (MAT), whereas the spatial variation in NEP was largely explained by MAT. The combined effects of MAT and MAP explained 79%, 62%, and 66% of the spatial variations in GEP, ER, and NEP, respectively. The GEP, ER, and NEP in different ecosystems in China exhibited 'positive coupling correlation' in their spatial patterns. Both ER and NEP were significantly correlated with GEP, with 68% of the per-unit GEP contributed to ER and 29% to NEP. MAT and MAP affected the spatial patterns of ER and NEP mainly by their direct effects on the spatial pattern of GEP.

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Development of a two-leaf light use efficiency model for improving the calculation of terrestrial gross primary productivity

Zhou

et al. 2013

Agricultural and Forest Meteorology

175

192

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Partitioning of evapotranspiration and its controls in four grassland ecosystems: Application of a two-source model

Zhou

et al. 2009

Agricultural and Forest Meteorology

233

164

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Carbon dioxide exchange between the atmosphere and an alpine meadow ecosystem on the Qinghai–Tibetan Plateau, China

Kato

Tang

et al. 2004

Agricultural and Forest Meteorology

172

138

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Yingnian Li

The FLUXNET2015 dataset and the ONEFlux processing pipeline for eddy covariance data

Effects of vegetation control on ecosystem water use efficiency within and among four grassland ecosystems in China

Grazing intensity alters soil respiration in an alpine meadow on the Tibetan plateau

Temperature and biomass influences on interannual changes in CO₂ exchange in an alpine meadow on the Qinghai‐Tibetan Plateau

Spatial patterns and climate drivers of carbon fluxes in terrestrial ecosystems of China

Development of a two-leaf light use efficiency model for improving the calculation of terrestrial gross primary productivity

Partitioning of evapotranspiration and its controls in four grassland ecosystems: Application of a two-source model

Carbon dioxide exchange between the atmosphere and an alpine meadow ecosystem on the Qinghai–Tibetan Plateau, China

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Yingnian Li

The FLUXNET2015 dataset and the ONEFlux processing pipeline for eddy covariance data

Effects of vegetation control on ecosystem water use efficiency within and among four grassland ecosystems in China

Grazing intensity alters soil respiration in an alpine meadow on the Tibetan plateau

Temperature and biomass influences on interannual changes in CO2 exchange in an alpine meadow on the Qinghai‐Tibetan Plateau

Spatial patterns and climate drivers of carbon fluxes in terrestrial ecosystems of China

Development of a two-leaf light use efficiency model for improving the calculation of terrestrial gross primary productivity

Partitioning of evapotranspiration and its controls in four grassland ecosystems: Application of a two-source model

Carbon dioxide exchange between the atmosphere and an alpine meadow ecosystem on the Qinghai–Tibetan Plateau, China

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Resources

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Temperature and biomass influences on interannual changes in CO₂ exchange in an alpine meadow on the Qinghai‐Tibetan Plateau