L
Lixin Wang
Researcher at Indiana University – Purdue University Indianapolis
Publications - 419
Citations - 13655
Lixin Wang is an academic researcher from Indiana University – Purdue University Indianapolis. The author has contributed to research in topics: Soil water & Biology. The author has an hindex of 53, co-authored 349 publications receiving 9822 citations. Previous affiliations of Lixin Wang include Hebei University of Science and Technology & Wayne State University.
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Responses of rhizomatous grass Phragmites communis to wind erosion: effects on biomass allocation
TL;DR: In this article, the authors explored how wind erosion affected the relationship between horizontal rhizome extension and vertical ramet growth using a common rhizomatous perennial grass, Phragmites communis.
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Stable isotopes of river water and groundwater along altitudinal gradients in the High Himalayas and the Eastern Nyainqentanghla Mountains
Lee J. Florea,Broxton W. Bird,Jamie K. Lau,Lixin Wang,Yanbin Lei,Tandong Yao,Lonnie G. Thompson +6 more
TL;DR: In this paper, river water and groundwater in seeps and springs collected from the non-monsoon season in the valleys of the Dudh Koshi River in eastern Nepal and the Niyang River of eastern Tibet, both in the Himalaya Mountains.
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Carbon and nitrogen parasitism by a xylem-tapping mistletoe (Tapinanthus oleifolius) along the Kalahari Transect: a stable isotope study
TL;DR: The results showed that mistletoes along the KT derived both nitrogen and carbon from their hosts, highlighting the importance of incorporating parasitic associations in future studies on studying carbon, water and nutrient cycling along the Kalahari.
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Seasonality of the Transpiration Fraction and Its Controls Across Typical Ecosystems Within the Heihe River Basin
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Risk and contributing factors of ecosystem shifts over naturally vegetated land under climate change in China.
TL;DR: The risk of ecosystem shifts in China using the projections of four global gridded vegetation models and an aggregate metric shows that half of naturally vegetated land surface could be under moderate or severe risk at the end of the 21st century under the middle and high emission scenarios.