Spatio-temporal Variability of Soil Water at Three Seasonal Floodplain Sites: A Case Study in Tarim Basin, Northwest China

Spatio-temporal Variability of Soil Water at Three Seasonal Floodplain Sites: A Case Study in Tarim Basin, Northwest China

The floodplain vegetation of the Tarim River in Northwest China is strongly influenced by irrigated agriculture. The abstraction of river water disturbs the natural dynamics of the floodplain ecosystem. The human impact on the hydrological system by bank dams and the irrigation of cotton plantings h...

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Bibliographic Details
Published in:Chinese geographical science Vol. 24; no. 6; pp. 647 - 657
Main Authors: Grashey-Jansen, Sven, Kuba, Martin, Cyffka, Bernd, Halik, Ümüt, Aishan, Tayierjiang
Format: Journal Article
Language:English
Published: Heidelberg Springer-Verlag 01-12-2014
Science Press
Springer Nature B.V
Subjects:
anthropogenic activities
Basins
Capillary water
Case studies
cotton
Earth and Environmental Science
ecosystems
Floodplains
Geography
groundwater
Groundwater levels
irrigated farming
irrigation
Moisture content
Plant communities
River banks
river water
Rivers
root systems
Soil analysis
soil matric potential
Soil moisture
Soil properties
Soil texture
Soil water
Soils
Spatial distribution
spatial variation
Statistical analysis
temporal variation
Vegetation
Water
Water availability
Water supply
water table
Zonation
中国西北
土壤水分
塔里木河流域
塔里木盆地
季节性
时空变异
植被退化
河漫滩
China
soil texture
soil water tensions
soil moisture
water retention
Tarim River
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Summary:The floodplain vegetation of the Tarim River in Northwest China is strongly influenced by irrigated agriculture. The abstraction of river water disturbs the natural dynamics of the floodplain ecosystem. The human impact on the hydrological system by bank dams and the irrigation of cotton plantings have caused adverse changes of the Tarim River and its floodplains, so the current stocks of the typical Tugai vegetation show significant signs of degradation. Field studies of soils and statistical analysis of soil moisture data have shown that the vitality of the Tugai vegetation is primarily determined by its position to the riverbank and the groundwater. There exist complex interactions between soil hydrological conditions and the vitality of the vegetation. But the availability of water is not only influenced by the groundwater level and seasonal flood events. The spatial distribution of stocks at different states of vitality seems also to be decisively influenced by physical soil properties. Our results show that the water supply of plant communities is strongly influenced by the soil texture. Spatial differences of soil moisture and corresponding soil water tensions may be the decisive factors for the zonation of vegetation. Physical soil properties control the water retention and rising of capillary water from deeper soil layers and the phreatic zone and may supply the root systems of the phreatophytic vegetation with water.
Bibliography:The floodplain -egetation of the Tarim River in Northwest China is strongly influenced by irrigated agriculture. The abstrac- tion of river water disturbs; the natural dynamics of the floodplain ecosystem. The human impact on the hydrological system by bank dams and the irrigation of cotton plantings have caused adverse changes of the Tarim River and its floodplains, so the current stocks of the typical Tugai vegetation show significant signs of degradation. Field studies of soils and statistical analysis of soil moisture data have shown that the vitality of the Tugai vegetation is primarily determined by its position to the riverbank and the groundwater. There exist complex interactions between soil hydrological conditions and the vitality of the vegetation. But the availability of water is not only influenced by the groundwater level and seasonal flood events. The spatial distribution of stocks at different states of vitality seems also to be decisively influenced by physical soil properties. Our results show that the water supply of plant communities is strongly in- fluenced by the soil texture. Spatial differences of soil moisture and corresponding soil water tensions may be the decisive factors for the zonafion of vegetation. Physical soil properties control the water retention and rising of capillary water from deeper soil layers and the phreatic zone and may supply the root systems of the phreatophytic vegetation with water. Keywords: soil moisture;soil texture; soil water tensions; Tarim River; water retention
22-1174/P
soil moisture; soil texture; soil water tensions; Tarim River; water retention
http://dx.doi.org/10.1007/s11769-014-0717-y
ISSN:1002-0063
1993-064X
DOI:10.1007/s11769-014-0717-y