Water uptake of riparian plants in the lower Lhasa River Basin,South Tibetan Plateau using stable water isotopes |
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| Authors: | Wenbo Rao Xi Chen Karina T Meredith Hongbing Tan Man Gao Jintao Liu |
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| Institution: | 1. College of Earth Sciences and Engineering, Jiangning Campus of Hohai University, Nanjing, China;2. Laboratory of Hydrology-Water Resources and Hydraulic Engineering, Hohai University, Nanjing, China;3. Australian Nuclear Science and Technology Organisation, Sydney, New South Wales, Australia;4. Institute of Surface-Earth System Science, Tianjin University, Tianjin, China |
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| Abstract: | Riparian plants can adapt their water uptake strategies based on climatic and hydrological conditions within a river basin. The response of cold-alpine riparian trees to changes in water availability is poorly understood. The Lhasa River is a representative cold-alpine river in South Tibet and an under-studied environment. Therefore, a 96 km section of the lower Lhasa River was selected for a study on the water-use patterns of riparian plants. Plant water, soil water, groundwater and river water were measured at three sites for δ18O and δ2H values during the warm-wet and cold-dry periods in 2018. Soil profiles differed in isotope values between seasons and with the distance along the river. During the cold-dry period, the upper parts of the soil profiles were significantly affected by evaporation. During the warm-wet period, the soil profile was influenced by precipitation infiltration in the upper reaches of the study area and by various water sources in the lower reaches. Calculations using the IsoSource model indicated that the mature salix and birch trees (Salix cheilophila Schneid. and Betula platyphylla Suk.) accessed water from multiple sources during the cold-dry period, whereas they sourced more than 70% of their requirement from the upper 60–80 cm of the soil profile during the warm-wet period. The model indicated that the immature rose willow tree (Tamarix ramosissima Ledeb) accessed 66% of its water from the surface soil during the cold-dry period, but used the deeper layers during the warm-wet period. The plant type was not the dominant factor driving water uptake patterns in mature plants. Our findings can contribute to strategies for the sustainable development of cold-alpine riparian ecosystems. It is recommended that reducing plantation density and collocating plants with different rooting depths would be conducive to optimal plant growth in this environment. |
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| Keywords: | cold-alpine river plant water riparian zone soil water stable isotopes (18O and 2H) water uptake |
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