Reduced Subsurface Lateral Flow in Agroforestry System Is Balanced by Increased Water Retention Capacity: Rainfall Simulation and Model Validation
文献类型: 外文期刊
第一作者: Wang, Y.
作者: Wang, Y.;Zhang, B.;Banwart, S. A.
作者机构:
期刊名称:QUANTIFYING AND MANAGING SOIL FUNCTIONS IN EARTH'S CRITICAL ZONE COMBINING EXPERIMENTATION AND MATHEMATICAL MODELLING ( 影响因子:6.919; 五年影响因子:8.791 )
ISSN: 0065-2113
年卷期: 2017 年 142 卷
页码:
收录情况: SCI
摘要: Soil hydrology controls the terrestrial water cycle and the transport of substances to influence the environmental quality of Earth's critical zone (CZ). Soil and water management in agroforestry systems (AF) is able to reduce soil nitrogen losses and to alleviate secondary salinity in some regions of the world by reducing subsurface lateral flow. Compared to monocropping (MC) system, the reduction of subsurface lateral flow in AF has been attributed not only to the enhanced evapotranspiration and canopy interception but also to changes in soil structure and related hydraulic properties. However, for AF, it remains unclear how changes in soil structure and hydraulic properties occur and can act to reduce the subsurface later flow. Rainfall simulation experiments were conducted in the field and soil matric potential was measured to determine the effect of AF and MC on the dynamics of rainfall infiltration, subsurface lateral flow, and soil water storage in the soil profile. The calculated isolines of soil matric potential showed that a physical domain of water saturation occurred in the subsoils during the rainfall and diminished after the rainfall. The water saturation domain was larger during the rainfall and drained more slowly after the rainfall in AF than in MC. These results illustrated that AF increased vertical preferential flow and retarded the subsurface lateral flow, resulting in increased water retention capacity in the soil profile, compared to MC. The changed water mass and flow distribution was attributed to the deep roots, which increase macropores oriented in the vertical direction and modify micro- and mesopores in the lateral direction, resulting in changes in anisotropy of soil hydraulic properties along transects of slope. These proposed mechanisms were successfully verified by mathematical modeling. Numerical experiments using the Hydrus-2D mathematical modeling code at the virtual condition of the same antecedent soil moisture condition along the slope at different rainfall events ruled out the effect of antecedent soil moisture or evapotranspiration on generation of subsurface flow. These findings suggest that land use has strong effects on water distribution not only above the ground but also in the subsurface. The changes in soil structure and hydraulic properties need to be considered in understanding landscape hydrology related to agricultural practices and their impacts on Earth's CZ.
分类号:
- 相关文献
作者其他论文 更多>>
-
Metabolite analysis of peach (Prunus persica L. Batsch) branches in response to freezing stress
作者:Li, Y.;Wang, Y.;Wang, Z.;Liu, G.;Chang, R.;Chen, H.;Li, J.;Tian, Q.
关键词:Freezing stress; Metabolic networks; Metabolism; Peach
-
Establishment of a high-sensitivity indirect competitive ELISA for florfenicol in chicken meat and egg
作者:Ge, M.;Xing, Y.;Sun, Y.;Cai, W.;Hu, X.;Ge, M.;Cai, W.;Wang, Y.
关键词:florfenicol; high sensitivity; ic-ELISA; chicken meat; egg
-
Aridity modulates grassland biomass responses to combined drought and nutrient addition
作者:Bondaruk, V. F.;Yahdjian, L.;Onatibia, G. R.;Biancari, L.;Bondaruk, V. F.;Yahdjian, L.;Onatibia, G. R.;Biancari, L.;Bondaruk, V. F.;Jentsch, A.;Wanke, S.;Xu, C.;Ke, Y. G.;Wu, H. H.;Xu, C.;Wu, H. H.;Wilfahrt, P.;Borer, E. T.;Seabloom, E. W.;Isbell, F.;Churchill, A. C.;Yu, Q.;Han, L. B.;Yu, Q.;Smith, M. D.;Ohlert, T.;Wilkins, K.;Alberti, J.;Daleo, P.;Dieguez, H.;Carbognani, M.;Forte, T.;Petraglia, A.;Kuebert, A.;Werner, C.;Kuebert, A.;Power, S. A.;Chandregowda, M. H.;Tissue, D.;Eisenhauer, N.;Auge, H.;Eisenhauer, N.;Auge, H.;Churchill, A. C.;Greenville, A. C.;Wardle, G. M.;Greenville, A. C.;Verhoeven, E.;Wardle, G. M.;Koerner, S. E.;Young, A. L.;Peri, P.;Salesa, D.;Tedder, M.;Maziko, Y.;Valdecantos, A.;Wheeler, G. R.;Wheeler, G. R.;An, H.;Diao, H. J.;Gutknecht, J.;Ke, Y. G.;Liu, J. L.;Tian, D. S.;Wei, C. Z.;Wei, C. Z.;Wilkins, K.;Zhang, F. W.;Zhang, B.;Zhu, J. T.;Zong, N.;Zuo, X. A.;Hautier, Y.
关键词:
-
Effects of Biochar and α-Fe2O3 Nanoparticles on the Growth, Photosynthetic Apparatus and Fruit Quality of Medicinal Plant Muskmelon
作者:Wang, Y.;Zhou, W.;Yi, L.;Dai, Z.;Qiu, L.;Zhou, Y.;Wang, S.;Li, H.;Li, J.;Wang, Y.;Zhou, W.;Yi, L.;Dai, Z.
关键词:Cucumis melo; alpha-Fe2O3 nanoparticles; biochar; medicinal ingredients; muskmelon; fruit quality
-
Cytosine base editor-mediated high-efficiency myostatin editing in Hu sheep
作者:Wang, Y.;Liu, W. J.;Meng, C. H.;Wang, H. L.;Cui, Z. K.;Zhang, J.;Zhang, J. L.;Qian, Y.;Li, Y. X.;Cao, S. X.;Wang, Y.;Liu, W. J.;Meng, C. H.;Wang, H. L.;Cui, Z. K.;Zhang, J.;Zhang, J. L.;Qian, Y.;Li, Y. X.;Cao, S. X.;Wang, Y.;Liu, W. J.;Meng, C. H.;Wang, H. L.;Cui, Z. K.;Zhang, J.;Zhang, J. L.;Qian, Y.;Li, Y. X.;Cao, S. X.
关键词:Hu sheep; MSTN; CBE; Off-target effects
-
Isolation and Degradation Characteristics of a Novel Halophilic Polycyclic Aromatic Hydrocarbon-Degrading Bacterium
作者:Cao, H.;Wang, S.;Guo, L.;Zhao, B.;Wang, H.;Wang, Y.;Cao, H.
关键词:bioremediation; halophilic bacterium; PAH biodegradation; degradation pathway;
Stutzerimonas frequens -
Molecular and transcriptomic analysis of the ovary during laying and brooding stages in Zhedong white geese (Anser cygnoides domesticus)
作者:Wang, Y.;Wang, S.;Zang, Z.;Li, B.;Huang, H.;Liu, G.;Zhao, X.
关键词:Reproductive hormones; follicles; apoptosis; mTOR, geese; ovary
