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Growth and ground water uptake responses of lucerne to changes in groundwater levels and salinity: lysimeter, isotope and modelling studies

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  • Zhang, L.
  • Dawes, W. R.
  • Slavich, P. G.
  • Meyer, W. S.
  • Thorburn, P. J.
  • Smith, D. J.
  • Walker, G. R.

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  • Zhang, L. & Dawes, W. R. & Slavich, P. G. & Meyer, W. S. & Thorburn, P. J. & Smith, D. J. & Walker, G. R., 1999. "Growth and ground water uptake responses of lucerne to changes in groundwater levels and salinity: lysimeter, isotope and modelling studies," Agricultural Water Management, Elsevier, vol. 39(2-3), pages 265-282, February.
    • Handle: RePEc:eee:agiwat:v:39:y:1999:i:2-3:p:265-282
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    1. McCown, R. L. & Hammer, G. L. & Hargreaves, J. N. G. & Holzworth, D. P. & Freebairn, D. M., 1996. "APSIM: a novel software system for model development, model testing and simulation in agricultural systems research," Agricultural Systems, Elsevier, vol. 50(3), pages 255-271.
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    Cited by:

    1. Liu, Meihan & Shi, Haibin & Paredes, Paula & Ramos, Tiago B. & Dai, Liping & Feng, Zhuangzhuang & Pereira, Luis S., 2022. "Estimating and partitioning maize evapotranspiration as affected by salinity using weighing lysimeters and the SIMDualKc model," Agricultural Water Management, Elsevier, vol. 261(C).
    2. Eitzinger, J. & Stastna, M. & Zalud, Z. & Dubrovsky, M., 2003. "A simulation study of the effect of soil water balance and water stress on winter wheat production under different climate change scenarios," Agricultural Water Management, Elsevier, vol. 61(3), pages 195-217, July.
    3. Liu, Meihan & Paredes, Paula & Shi, Haibin & Ramos, Tiago B. & Dou, Xu & Dai, Liping & Pereira, Luis S., 2022. "Impacts of a shallow saline water table on maize evapotranspiration and groundwater contribution using static water table lysimeters and the dual Kc water balance model SIMDualKc," Agricultural Water Management, Elsevier, vol. 273(C).
    4. Dietrich, Ottfried & Fahle, Marcus & Seyfarth, Manfred, 2016. "Behavior of water balance components at sites with shallow groundwater tables: Possibilities and limitations of their simulation using different ways to control weighable groundwater lysimeters," Agricultural Water Management, Elsevier, vol. 163(C), pages 75-89.
    5. Huang, Mingbin & Shao, Mingan & Li, Yushan, 2001. "Comparison of a modified statistical-dynamic water balance model with the numerical model WAVES and field measurements," Agricultural Water Management, Elsevier, vol. 48(1), pages 21-35, May.
    6. Yu, Qihua & Kang, Shaozhong & Hu, Shunjun & Zhang, Lu & Zhang, Xiaotao, 2021. "Modeling soil water-salt dynamics and crop response under severely saline condition using WAVES: Searching for a target irrigation volume for saline water irrigation," Agricultural Water Management, Elsevier, vol. 256(C).
    7. Hou, Chenli & Tian, Delong & Xu, Bing & Ren, Jie & Hao, Lei & Chen, Ning & Li, Xianyue, 2021. "Use of the stable oxygen isotope method to evaluate the difference in water consumption and utilization strategy between alfalfa and maize fields in an arid shallow groundwater area," Agricultural Water Management, Elsevier, vol. 256(C).
    8. Cao, Xiaoqing & Yang, Peiling & Engel, Bernard A. & Li, Pingfeng, 2018. "The effects of rainfall and irrigation on cherry root water uptake under drip irrigation," Agricultural Water Management, Elsevier, vol. 197(C), pages 9-18.
    9. Zhang, Yongyong & Wu, Shaoxiong & Kang, Wenrong & Tian, Zihan, 2022. "Multiple sources characteristics of root water uptake of crop under oasis farmlands in hyper-arid regions," Agricultural Water Management, Elsevier, vol. 271(C).
    10. Karimov, Akmal Kh. & Šimůnek, Jirka & Hanjra, Munir A. & Avliyakulov, Mirzaolim & Forkutsa, Irina, 2014. "Effects of the shallow water table on water use of winter wheat and ecosystem health: Implications for unlocking the potential of groundwater in the Fergana Valley (Central Asia)," Agricultural Water Management, Elsevier, vol. 131(C), pages 57-69.
    11. E. Stenitzer & H. Diestel & Th. Zenker & R. Schwartengräber, 2007. "Assessment of Capillary Rise from Shallow Groundwater by the Simulation Model SIMWASER Using Either Estimated Pedotransfer Functions or Measured Hydraulic Parameters," Water Resources Management: An International Journal, Published for the European Water Resources Association (EWRA), Springer;European Water Resources Association (EWRA), vol. 21(9), pages 1567-1584, September.
    12. Wu, Youjie & Du, Taisheng & Li, Fusheng & Li, Sien & Ding, Risheng & Tong, Ling, 2016. "Quantification of maize water uptake from different layers and root zones under alternate furrow irrigation using stable oxygen isotope," Agricultural Water Management, Elsevier, vol. 168(C), pages 35-44.
    13. Northey, J.E. & Christen, E.W. & Ayars, J.E. & Jankowski, J., 2006. "Occurrence and measurement of salinity stratification in shallow groundwater in the Murrumbidgee Irrigation Area, south-eastern Australia," Agricultural Water Management, Elsevier, vol. 81(1-2), pages 23-40, March.
    14. Silberstein, R. P. & Vertessy, R. A. & Morris, J. & Feikema, P. M., 1999. "Modelling the effects of soil moisture and solute conditions on long-term tree growth and water use: a case study from the Shepparton irrigation area, Australia," Agricultural Water Management, Elsevier, vol. 39(2-3), pages 283-315, February.
    15. Penny, Jessica & Ordens, Carlos M. & Barnett, Steve & Djordjević, Slobodan & Chen, Albert S., 2023. "Small-scale land use change modelling using transient groundwater levels and salinities as driving factors – An example from a sub-catchment of Australia’s Murray-Darling Basin," Agricultural Water Management, Elsevier, vol. 278(C).

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