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)

Karimov, Akmal; Šimůnek, Jirka; Hanjra, Munir A.; Avliyakulov, Mirzoolim; Forkutsa, I.

doi:10.1016/j.agwat.2013.09.010

Cited by 95 publications

(55 citation statements)

References 50 publications

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“…Ayars et al (2006) summarize, for crops that have successfully used significant amounts of shallow groundwater, the soils in which they were grown, the water table depths and salinity, and the irrigation management and associated climate conditions (e.g., average rainfall). Additional studies not included in the table in Ayars et al (2006) that have similar results as those tabulated include those for sudangrass and alfalfa hay crops (Bali et al 2001a and2001b;Grismer and Bali 2001;Grismer et al 2001), as well as corn (Kang et al 2001), winter wheat (Kang et al 2001;Karimov et al 2014), safflower (Gharmarnia et al 2011), and date palm trees (Zeineldin 2010). …”

Section: Type Of Cropmentioning

confidence: 97%

Drought Tip: Use of Shallow Groundwater for Crop Production

Grismer¹

2015

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Section: Type Of Cropmentioning

confidence: 97%

Drought Tip: Use of Shallow Groundwater for Crop Production

Grismer¹

2015

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“…Nevertheless, quantifying groundwater use is another issue. The contribution of groundwater to vegetation water use varies by crop [46], grass [47], and trees [39] according to the Richards equation. However, these studies did not consider the effect of thermal driving flow.…”

Section: Discussionmentioning

confidence: 99%

Simulation of Water Use Dynamics by Salix Bush in a Semiarid Shallow Groundwater Area of the Chinese Erdos Plateau

Huang

Zhou

Hou

et al. 2015

Water

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Abstract:This study analyzed the water use of the Salix psammophila bush in a semi-arid area in northwest China using a Hydrus-1D model. The model incorporated the effect of thermally driven water flow coupling liquid water, water vapor and heat transport. The model was calibrated and validated using hourly field measurements of soil water content and temperature at different depths for a growing season of 154 days. Furthermore, another Hydrus-1D model was established to simulate environments with decreased heat, rainfall or temperature and an increased leaf area index using calibrated and validated parameters. Our results show that upward and downward thermally driven water vapor fluxes account for 0.11% and 0.28%, respectively, of the corresponding direction of total water flux during the bush's growing season. Although the vapor flux is very small, simulations incorporating heat flow revealed alterations in the temperature and pressure head gradients over the root zone, especially during dry periods. Consequently, the cumulative contributions of groundwater to evapotranspiration (ETg) with heat flow and without heat flow were 26.9% and 40.6%, respectively, during the simulation period. Therefore, the cumulative contribution of groundwater to ETg is overestimated when heat flow is excluded. Thus, we recommended that heat transport be incorporated when evaluating ETg in arid and semi-arid areas.

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“…He et al (2017) further used HYDRUS-1D to simulate the irrigated winter wheat/summer maize rotation system in the North China Plain for a total of 15 years. One of the advantages of the model for our study is that it provides estimates of upward fluxes from a shallow groundwater table during deficit irrigation (e.g., Karimov et al, 2014).…”

Section: Hydrus-1d Simulationsmentioning

confidence: 99%

“…Managing the irrigation demand by reducing the beneficial use in agriculture may not always bring real water savings (Ward and Pulido-Velazquez, 2008). It may result in lowering the productivity of the use of thermal and land resources, affecting instream use values (Ward and Booker, 2003), increasing salinity (Khan and Hanjra, 2008), and negatively impacting ecosystem health (Karimov et al, 2014), but it may also deliver other socioeconomic benefits including incomes, employment, revenue, and gains in food security (Molden et al, 2010) for both rural and urban consumers. This highlights the necessity to quantitatively assess the impact of cropping changes beyond land and water savings and to consider also other social gains to the wider public.…”

Section: Introductionmentioning

confidence: 99%

Can a change in cropping patterns produce water savings and social gains: A case study from the Fergana Valley, Central Asia

Karimov

Hanjra

Šimůnek

et al. 2018

Journal of Hydrology and Hydromechanics

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Abstract:The study examines possible water savings by replacing alfalfa with winter wheat in the Fergana Valley, located upstream of the Syrdarya River in Central Asia. Agricultural reforms since the 1990s have promoted this change in cropping patterns in the Central Asian states to enhance food security and social benefits. The water use of alfalfa, winter wheat/fallow, and winter wheat/green gram (double cropping) systems is compared for high-deficit, low-deficit, and full irrigation scenarios using hydrological modeling with the HYDRUS-1D software package. Modeling results indicate that replacing alfalfa with winter wheat in the Fergana Valley released significant water resources, mainly by reducing productive crop transpiration when abandoning alfalfa in favor of alternative cropping systems. However, the winter wheat/fallow cropping system caused high evaporation losses from fallow land after harvesting of winter wheat. Double cropping (i.e., the cultivation of green gram as a short duration summer crop after winter wheat harvesting) reduced evaporation losses, enhanced crop output and hence food security, while generating water savings that make more water available for other productive uses. Beyond water savings, this paper also discusses the economic and social gains that double cropping produces for the public within a broader developmental context.

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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)

Cited by 95 publications

References 50 publications

Drought Tip: Use of Shallow Groundwater for Crop Production

Drought Tip: Use of Shallow Groundwater for Crop Production

Simulation of Water Use Dynamics by Salix Bush in a Semiarid Shallow Groundwater Area of the Chinese Erdos Plateau

Can a change in cropping patterns produce water savings and social gains: A case study from the Fergana Valley, Central Asia

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