Mon Oct 13, F. Flechtner
• Sorted by Date • Sorted by Last Name of First Author •
Liu, Xing, Tian, Kunjun, Chao, Nengfang, Guo, Bing, Zhao, Weijun, Li, Fupeng, Zhang, Bingbing, Wang, Zhengtao, and Han, Baomin, 2024. Analysis of spatial and temporal variations of vegetation NPP and TWS in the Yangtze River Basin. Scientific Reports, 14(1):24908, doi:10.1038/s41598-024-75447-5.
• from the NASA Astrophysics Data System • by the DOI System •
@ARTICLE{2024NatSR..1424908L,
author = {{Liu}, Xing and {Tian}, Kunjun and {Chao}, Nengfang and {Guo}, Bing and {Zhao}, Weijun and {Li}, Fupeng and {Zhang}, Bingbing and {Wang}, Zhengtao and {Han}, Baomin},
title = "{Analysis of spatial and temporal variations of vegetation NPP and TWS in the Yangtze River Basin}",
journal = {Scientific Reports},
keywords = {Vegetation NPP, Yangtze River Basin, Terrestrial water storage, Climate change, Spatiotemporal evolution},
year = 2024,
month = oct,
volume = {14},
number = {1},
eid = {24908},
pages = {24908},
abstract = "{Net primary productivity (NPP) is an important parameter reflecting
vegetation growth, and water is one of the necessary factors for
vegetation growth. Investigating the mutual influence between
NPP and water is significant for ensuring the stable development
of the ecological environment. This study focuses on the Yangtze
River Basin (YRB) as the research area, and based on medium-
resolution imaging spectrometer (MODIS) data, climate data, and
gravity recovery and climate experiment (GRACE) data, the
spatiotemporal evolution characteristics of vegetation NPP and
terrestrial water storage (TWS) in the YRB from 2000 to 2022 are
explored and analyzes the mutual influence of NPP with climate
factors and TWS. The results show that vegetation NPP (4.10
gC{\textperiodcentered}m$^{‑2}${\textperiodcentered}a$^{‑1}$)
and TWS (0.55 mm) in the YRB have exhibited an increasing trend
from 2000 to 2022, with a strong correlation between the two,
which is related to recent environmental policies. Analysis of
the impact of climate factors on NPP reveals that temperature
and TWS significantly positively impact NPP changes.
Furthermore, comparisons between NPP and TWS indicate that
changes in TWS substantially promote plant growth. In addition,
the comparison between NPP and TWS indicates that changes in TWS
have an important promoting effect on plant growth. Surface
water (SWS) and soil water (SM) have a significant promoting
effect on plant growth, but with a strong lag, while the
consumption of groundwater (GWS) has been promoting plant growth
without significant lag.}",
doi = {10.1038/s41598-024-75447-5},
adsurl = {https://ui.adsabs.harvard.edu/abs/2024NatSR..1424908L},
adsnote = {Provided by the SAO/NASA Astrophysics Data System}
}
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