Effect of superabsorbent polymer on root water uptake and quantification of water uptake from soil profile in dry land

Liao R.; Yang P.; Zhu Y.

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Effect of superabsorbent polymer on root water uptake and quantification of water uptake from soil profile in dry land

机译：超吸收性聚合物对旱地土壤曲线土壤灌注量的影响及水摄取量化

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摘要

Few reports focus on the source of water used in crop uptake from the soil profile following superabsorbent polymer (SAP) application, particularly the quantification of crop water uptake from SAP-treated soil and non-SAP-treated soil. Using column experiments, we investigated the effect of SAP on root water uptake of maize over two years and researched in depth the utilization of water from different soil layers under SAP application by employing stable isotope D/O-18. The results suggest that SAP can increase root water uptake by 16.3-27.8% in SAP-treated soil layers. The water used by the crop mainly originated in the 0- to 20-cm soil layer at the jointing stage, 20- to 40-cm at heading stage and 0- to 20- cm during grain filling.

机译：很少有报道，在超吸收性聚合物（SAP）应用后，少数报告对土壤谱的作物摄取的水源，特别是从SAP处理的土壤和非SAP处理的土壤中量化作物水摄取的量化。使用柱实验，我们研究了SAP在两年内对玉米的根水吸收的影响，并通过采用稳定同位素D / O-18来深入研究了SAP应用中的不同土壤层的水。结果表明，SAP可以在SAP处理的土壤层中将根水吸收量增加16.3-27.8％。作物使用的水主要在连接阶段的0至20厘米的土壤层中，在颗粒填充期间在标题阶段20至40厘米处，0至20厘米。

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来源
《Evolutionary Ecology Research 》 |2017年第4期| 共5页
作者
Liao R.; Yang P.; Zhu Y.;
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作者单位

China Inst Water Resources &

Hydropower Res State Key Lab Simulat &

Regulat Water Cycles Rive Beijing 100048 Peoples R China;

China Agr Univ Coll Water Conservancy &

Civil Engn Beijing 100083 Peoples R China;

China Agr Univ Coll Water Conservancy &

Civil Engn Beijing 100083 Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类普通生物学 ;
关键词
Superabsorbent polymer; root water uptake; stable isotope;

机译：超吸收性聚合物;根水吸收;稳定同位素;

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专利

1. Effect of superabsorbent polymer on root water uptake and quantification of water uptake from soil profile in dry land [J] . Liao R., Yang P., Zhu Y. Evolutionary Ecology Research . 2017 ,第4期

机译：超吸收性聚合物对旱地土壤曲线土壤灌注量的影响及水摄取量化
2. Root water uptake and profile soil water as affected by vertical root distribution [J] . Gui-Rui Yu, Jie Zhuang, Keiichi Nakayama, Plant Ecology . 2007 ,第1期

机译：垂直根系分布对根系水分吸收和剖面水分的影响
3. Root water uptake and profile soil water as affected by vertical root distribution. [J] . Yu GuiRui, Zhuang Jie, Nakayama K., Plant Ecology . 2007 ,第1期

机译：根系垂直分布对根系水分吸收和土壤水分分布的影响。
4. Visualising and quantifying rhizosphere processes: root-soil contact and water uptake [C] . Sonja Schmidt, Peter J. Gregory, A. Glyn Bengough, World Congress of Soil Science . 2011

机译：可视化和量化根际工艺：根土接触和水吸收
5. Root water uptake and soil water dynamics in a karst savanna on the Edwards Plateau, Texas. [D] . Tokumoto, Ieyasu. 2013

机译：德克萨斯州爱德华兹高原岩溶大草原中的根系水分吸收和土壤水分动力学。
6. An Inverse Method to Estimate the Root Water Uptake Source-Sink Term in Soil Water Transport Equation under the Effect of Superabsorbent Polymer [O] . Renkuan Liao, Peiling Yang, Wenyong Wu, 2011

机译：高吸收性聚合物作用下土壤水分运移方程中根吸源-库期的反演方法
7. An Inverse Method to Estimate the Root Water Uptake Source-Sink Term in Soil Water Transport Equation under the Effect of Superabsorbent Polymer. [O] . Renkuan Liao, Peiling Yang, Wenyong Wu, 2016

机译：高吸水性树脂对土壤水分运移方程根系吸水源 - 汇项的反演方法。

Effect of superabsorbent polymer on root water uptake and quantification of water uptake from soil profile in dry land

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