Your search found 30 records
1 Lemeur, R.; Zhang, L.. 1990. Evaluation of three evapotranspiration models in terms of their applicability for an arid region. Journal of Hydrology, 114(3-4):395-411.
(Location: IWMI-HQ Call no: PER Record No: H06532)
2 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, 39(2/3):265-282.
Groundwater ; Soil water ; Salinity ; Water table ; Plant growth ; Evapotranspiration ; Water use ; Lysimetry ; Simulation models ; Soil moisture / Australia / River Murray
(Location: IWMI-HQ Call no: PER Record No: H023945)
3 Zhang, L.; Hume, I. H.; O'Connell, M. G.; Mitchell, D. C.; Milthorpe, P. L.; Yee, M.; Dawes, W. R.; Hatton, T. J. 1999. Estimating episodic recharge under different crop/pasture rotations in the Mallee region: Part 1. Experiments and model calibration. Agricultural Water Management, 42(2):219-235.
Groundwater ; Recharge ; Cropping systems ; Pastures ; Soil moisture ; Measurement ; Plant growth ; Simulation models ; Water balance ; Experiments / Australia / Mallee Region
(Location: IWMI-HQ Call no: PER Record No: H025430)
4 Zhang, L.; Dawes, W. R.; Hatton, T. J.; Hume, I. H.; O'Connell, M. G.; Mitchell, D. C.; Milthorp, P. L.; Yee, M. 1999. Estimating episodic recharge under different crop/pasture rotations in the Mallee region: Part 2. Recharge control by agronomic practices. Agricultural Water Management, 42(2):237-249.
Environmental degradation ; Groundwater ; Recharge ; Cropping systems ; Pastures ; Soil water ; Models / Australia / Mallee Region
(Location: IWMI-HQ Call no: PER Record No: H025431)
5 Jakeman, A. J.; Green, T. R.; Zhang, L.; Beavis, S. G.; Evans, J. P.; Dietrich, C. R.; Barnes, B. 1998. Modelling catchment erosion, sediment and nutrient transport in large basins. In de Vries, F. W. T. P.; Agus, F.; Kerr, J. (Eds.). Soil erosion at multiple scales: Principles and methods for assessing causes and impacts. Wallingford, UK: CABI; Bangkok, Thailand: IBSRAM. pp.343-355.
Catchment areas ; Erosion ; Sedimentation ; Simulation models ; Rainfall-runoff relationships ; Stream flow ; Climate / Australia / Thailand / New South Wales / Namoi Basin / Ping Basin
(Location: IWMI-HQ Call no: 631.45 G000 DEV Record No: H027846)
6 Wang, H.; Zhang, L.; Dawes, W. R.; Liu, C. 2001. Improving water use efficiency of irrigated crops in the North China Plain: Measurements and modelling. Agricultural Water Management, 48(2):151-167.
Water use efficiency ; Wheat ; Maize ; Plant growth ; Evapotranspiration ; Evaporation ; Simulation models ; Measurement ; Water table ; Precipitation ; Lysimetry ; Water balance ; Estimation ; Monitoring ; Soil water ; Crop yield ; Irrigation requirements / China / North China Plain
(Location: IWMI-HQ Call no: PER Record No: H028266)
7 Kang, S.; Zhang, L.; Liang, Y.; Hu, X.; Cai, H.; Gu, B. 2002. Effects of limited irrigation on yield and water use efficiency of winter wheat in the Loess Plateau of China. Agricultural Water Management, 55(3):203-216.
Wheat ; Crop yield ; Water use efficiency ; Evapotranspiration ; Soil water ; Water deficit ; Measurement ; Plant growth / China / Loess Plateau
(Location: IWMI-HQ Call no: PER Record No: H030175)
8 Zhang, L.; Walker, G. R.; Dawes, W. R. 2002. Water balance modelling: Concepts and applications. In McVicar, T. R.; Rui, L.; Walker, J.; Fitzpatrick, R. W.; Changming, L. (Eds.), Regional water and soil assessment for managing sustainable agriculture in China and Australia. Canberra, Australia: ACIAR. pp.31-47.
Water balance ; Models ; Sensitivity analysis ; Hydrology ; Crop production ; Energy ; Irrigated farming ; Recharge / China / North China Plain
(Location: IWMI-HQ Call no: 631.7.1 G592 MCV Record No: H032988)
9 Shao, M.; Huang, M.; Zhang, L.; Li, Y. 2002. Simulation of field-scale water balance on the Loess Plateau using the WAVES model. In McVicar, T. R.; Rui, L.; Walker, J.; Fitzpatrick, R. W.; Changming, L. (Eds.), Regional water and soil assessment for managing sustainable agriculture in China and Australia. Canberra, Australia: ACIAR. pp.48-56.
Simulation models ; Water balance ; Soil water ; Soil fertility ; Water use efficiency ; Crop yield / China / Loess Plateau
(Location: IWMI-HQ Call no: 631.7.1 G592 MCV Record No: H032989)
10 Kang, S.; Zhang, L.; Liang, Y.; Dawes, W. R. 2002. Simulation of winter wheat yield and water use efficiency on the Loess Plateau of China using WAVES. In McVicar, T. R.; Rui, L.; Walker, J.; Fitzpatrick, R. W.; Changming, L. (Eds.), Regional water and soil assessment for managing sustainable agriculture in China and Australia. Canberra, Australia: ACIAR. pp.95-104.
(Location: IWMI-HQ Call no: 631.7.1 G592 MCV Record No: H032993)
11 McVicar, T. R.; Zhang, G.; Bradford, A. S.; Wang, H.; Dawes, W. R.; Zhang, L.; Li, L. 2002. Monitoring regional water use efficiency indicators on the North China Plain. In McVicar, T. R.; Rui, L.; Walker, J.; Fitzpatrick, R. W.; Changming, L. (Eds.), Regional water and soil assessment for managing sustainable agriculture in China and Australia. Canberra, Australia: ACIAR. pp.231-257.
Water use efficiency ; Monitoring ; Indicators ; Water conservation ; Maize ; Crop production ; Irrigated farming ; Precipitation ; Information systems / China / Hebei
(Location: IWMI-HQ Call no: 631.7.1 G592 MCV Record No: H033004)
12 Bradford, A. S.; Zhang, L.. 2002. Application of a mean annual water balance model to the Murray-Darling Basin: Past, present and future. In McVicar, T. R.; Rui, L.; Walker, J.; Fitzpatrick, R. W.; Changming, L. (Eds.), Regional water and soil assessment for managing sustainable agriculture in China and Australia. Canberra, Australia: ACIAR. pp.277-290.
Water balance ; Models ; River basins ; Catchment areas ; Evapotranspiration ; Mapping ; Afforestation / Australia / Murray Darling Basin
(Location: IWMI-HQ Call no: 631.7.1 G592 MCV Record No: H033006)
13 Fan, S.; Zhang, L.; Zhang, X. 2002. Growth, inequality, and poverty in rural China: The role of public investments. Washington, DC, USA: IFPRI. x, 72p. (IFPRI Research Report 125)
Poverty ; Estimation ; Public investment ; Agricultural policy ; Rural economy ; Irrigation water ; Education ; Infrastructure ; Models / China
(Location: IWMI-HQ Call no: 339.46 G592 FAN Record No: H035430)
14 Brown, A. E.; Zhang, L.; McMahon, T. A.; Western, A. W.; Vertessy, R. A. 2005. A review of paired catchment studies for determining changes in water yield resulting from alterations in vegetation. Journal of Hydrology, 310:28-61.
(Location: IWMI-HQ Call no: P 7358 Record No: H037122)
15 Lane, P. N. J.; Best, A. E.; Hickel, K.; Zhang, L.. 2005. The response of flow duration curves to afforestation. Journal of Hydrology, 310:253-265.
Hydrology ; Stream flow ; Afforestation ; Catchment areas ; Evapotranspiration ; Models ; Statistical analysis
(Location: IWMI-HQ Call no: P 7362 Record No: H037127)
16 Zhu, G. W.; Qin, B. Q.; Zhang, L.; Luo, L. C. 2006. Geochemical forms of phosphorus in sediments of three large, shallow lakes of China. Pedosphere, 16(6):726-734.
(Location: IWMI-HQ Call no: P 7669 Record No: H039421)
17 Kirby, M.; Mainuddin, M.; Ahmad, Mobin-ud-Din; Marchand, Pierre; Zhang, L.. 2006. Water use account spreadsheets with examples of some major river basins. In 9th International Riversymposium, Brisbane, Australia, 4-7 September 2006. 15p.
River basins ; Water use ; Hydrology / Australia / South East Asia / Iran / Murray-Darling Basin / Mekong Basin / Karkheh Basin
(Location: IWMI-HQ Call no: IWMI 333.91 G000 KIR Record No: H039913)
18 Zhang, L.; Wang, J.; Huang, J.; Rozelle, S.; Huang, Q. 2009. Groundwater markets in the North China Plain: impact on irrigation water use, crop yields and farmer income. In Mukherji, Aditi; Villholth, K. G.; Sharma, Bharat R.; Wang, J. (Eds.) Groundwater governance in the Indo-Gangetic and Yellow River basins: realities and challenges. London, UK: CRC Press. pp.293-308. (IAH Selected Papers on Hydrogeology 15)
Water market ; Groundwater irrigation ; Tube wells ; Water use ; Models ; Crop yield ; Farm income ; Households ; Villages / China / North China Plain
(Location: IWMI HQ Call no: IWMI 631.7.6.3 G570 MUK Record No: H042236)
19 McVicar, T. R.; Zhang, G.; Bradford, A. S.; Wang, H.; Dawes, W. R.; Zhang, L.; Lingtao, L. 2000. Developing a spatial information system to monitor regional agricultural water use efficiency for Hebei Province on the North China plain. Canberra, Australia: Commonwealth Scientific and Industrial Research Organisation (CSIRO). 54p.
Water resources ; Water use efficiency ; Monitoring ; Agriculture ; Yields ; Growth period ; Crops ; Maize ; Wheats ; Data ; GIS ; Spatial information / China / Hebei Province
(Location: IWMI HQ Call no: 333.91 G592 MCV Record No: H044213)
http://www.clw.csiro.au/publications/technical2000/tr31-00.pdf
https://vlibrary.iwmi.org/pdf/H044213.pdf
https://vlibrary.iwmi.org/pdf/H044213.pdf
(7.21 MB) (7.21MB)
20 Hu, H. -y.; Zhang, L.; Wang, Y. 2016. Crop development based assessment framework for guiding the conjunctive use of fresh water and sewage water for cropping practice - a case study. Agricultural Water Management, 169:98-105. [doi: https://doi.org/10.1016/j.agwat.2016.02.017]
Crop production ; Freshwater ; Sewage ; Wastewater treatment ; Wastewater irrigation ; Water use ; Conjunctive use ; Crop yield ; Assessment ; Phytotoxicity ; Bioassays ; Risk management ; Case studies / China / Xiamen
(Location: IWMI HQ Call no: e-copy only Record No: H047496)
(1.18 MB)
Sewage dilution and formulated fertilization are cost-effective to avoid sewage-deriving phytotoxicity stress and excess fertilizer application in agricultural sewage irrigation practice. However, it is hard for us to fix the parameters of sewage dilution ratio (SDR) and fertilization formula exactly for the best management of sewage irrigation practice according to those published guidelines. This paper presented such an assessment framework. The assessment tools in the framework consist of four consecutive sewage irrigation experiments, which include germination test, seedling test and cropping test for assessing sewage-deriving phytotoxicity stress in different crop development stages, and DRIS test for diagnosing crop nutrient deficiency. The framework is further verified with crop kale (Brassica oleracea L. var. acephala D.C.) under different pre-set SDR values. The results of germination, seedling and cropping tests can significantly reflect the change of sewage-deriving phytotoxicity with both SDR gradient and crop development stages. Furthermore, the results of DRIS test show that sewage irrigation causes the deficiency of N and P nutrients relative to K nutrient in crop kale. Finally, according to these test results, SDR values and fertilization formula are optimized for guiding the conjunctive use of sewage and fresh water in cropping practice. The framework is thus a best management tool supplementary for those published guidelines to enhance the efficiency and feasibility of agricultural sewage reuse.
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