The Response of Cotton to Subsurface Drip and Furrow Irrigation in a Vertisol

Bhattarai, Surya P.; McHugh, AD; Lotz, G.; Midmore, David J.

doi:10.1017/s0014479705003029

Cited by 26 publications

(25 citation statements)

References 17 publications

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“…Similarly, other researchers (Norton and Silvertooth, 2001;Cetin and Bilgel, 2002;Bhattarai et al, 2003;Khalifa, 2006) found a substantial improvement in water use efficiency due to economizing water under drip irrigation. Various scientists (Robertson , 2006;Singh et al, 2007;Jonghan and Piccinni, 2009;Singh et al, 2010;Wei et al, 2012) also noticed water savings for the drip method of irrigation compared to the furrow method.…”

Section: Physiological Efficiencymentioning

confidence: 76%

Radiation, water, and nitrogen use efficiencies of Gossypium hirsutum L.

Ahmad¹,

Raza²,

Muhammad³

et al. 2015

Turk J Agric For

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Proper management of agro-based resources is a major baseline for precision agriculture (Lambin and Meyfroidt, 2011). In Pakistan, cotton (Gossypium hirsutum L.) is a widely cultivated fiber crop with limited available resources, namely selection of low-graded cultivars, imbalanced nutrient application, inadequate irrigation water supply, and so on, which contributes towards lower per capita yield production (Bibi et al., 2011;. Among the different resources, nitrogen is an important plant nutrient required in larger quantities by the cotton crop to enhance its productivity (

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Section: Physiological Efficiencymentioning

confidence: 76%

Radiation, water, and nitrogen use efficiencies of Gossypium hirsutum L.

Ahmad¹,

Raza²,

Muhammad³

et al. 2015

Turk J Agric For

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“…We have shown (Bhattarai et al, 2006) the advantages of subsurface drip over furrow for yield and water use efficiency of cotton in a tropical environment. Subsurface drip can also potentially offer a multitude of other advantages by minimizing the off-site movements of run-off, sediments, pesticides and nutrients (Camp et al, 1999) provided crop, soil and climate specific irrigation rates are applied.…”

Section: Introductionmentioning

confidence: 89%

Effects of subsurface drip irrigation rates and furrow irrigation for cotton grown on a vertisol on off-site movement of sediments, nutrients and pesticides

McHugh

Bhattarai

Lotz³

et al. 2008

Agron. Sustain. Dev.

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-Subsurface drip irrigation can reduce off-farm movements of fertilizers and pollutants and improve the water use efficiency of irrigated agriculture. Here we compared the effects of furrow and subsurface drip at different irrigation rates, based on a percentage of daily crop-evapotranspiration rates (ETc), on run-off and off-site movement of suspended sediment, nutrients and pesticides from cotton crops grown on a vertisol. Our results show that furrow irrigation significantly increased suspended soil loss, of 5.26 t ha −1 , compared to that of subsurface drip irrigation at 120% of ETc, of 2.53 t ha −1 , whereas no erosion was recorded with deficit subsurface drip irrigation. Off-site movement of nitrogen in furrow, of 18.63 kg ha −1 , was five times greater than subsurface drip irrigation at 120% ETc. It was much less with 105% ETc (0.37 kg ha −1 ) and 90% ETc (0.15 kg ha −1 ), and absent for 75% and 50% of ETc. Phosphorus loss from furrow, of 778 g ha −1 , was greater than for the wetter subsurface drip treatments that gave 23 g ha −1 for 90% ETc and 19 g ha −1 for 120% ETc. No P loss was recorded from drier subsurface drip irrigation rates. Herbicides such as atrazine and diuron were applied in the year prior to the experiment, but considerable amounts were recorded in furrow run-off in both years, but only at 90 and 120% ETc subsurface drip irrigation in the first year. Concentrations of applied herbicide residues in the runoff exceeded the minimum threshold level for 99% species protection and, although the total amount of herbicide movement was higher in furrow, at times the concentration was greater for wetter subsurface drip irrigation run-off. Residues of insecticides, such as endosulphan applied in a previous year and dimethoate applied in the current years, were recorded in runoff from subsurface drip at 120% and furrow irrigation. Their concentrations in each year exceeded minimum threshold level. Subsurface drip irrigation at 75% ETc offered the best trade-off between off-site run-off, erosion and pesticide movement and yield and water use efficiency.Furrow / subsurface drip / run-off / erosion / herbicide/ nitrogen / phosphorus

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“…Since agriculture is a major consumer of water for food and fiber production, it becomes critical to use efficient water delivery systems to crops, in addition to utilizing the most drought-tolerant water-efficient crops, cropping systems, tillage practices, and plant genetic materials available in sustainable crop production. Subsurface drip irrigation (SDI) is perhaps the most efficient water delivery system to roots of plants, producing crop yields equal to or greater than other irrigation methods and, in many cases, requiring less water and improved water-use efficiencies [3][4][5][6]. In regions where irrigation well capacities are low and in cases where available irrigation water is saline or where shallow water conditions are saline, SDI, compared with surface irrigation systems, offers the greatest potential to increase yields and irrigation water use efficiency [7][8][9][10].…”

Section: Introductionmentioning

confidence: 99%

“…Darusman et al [19] in Kansas with corn (Zea mays L.) and Bhattarai et al [6] in Australia with cotton also concluded that 100% crop ET replacement was not necessary to optimize plant productivity and water-use efficiency. Overirrigation can lead to oxygen deficiency, excessive runoff following a high rainfall event, and increased internal drainage that can transport nitrates and other nutrients deeper into the soil profile and ground water.…”

Section: Introductionmentioning

confidence: 99%

Utilizing Subsurface Drip Irrigation and Conservation Tillage in Cotton Production Systems

Sij¹,

Bordovsky

Jones

et al. 2010

SRX Agriculture

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Ground water resources for irrigated agriculture are becoming increasing limited in semiarid regions of the world. Subsurface drip irrigation (SDI) and a no-till conservation tillage system were evaluated over 3 years on cotton (Gossypium hirsutum, L.) production and fiber quality in north Texas. Subsurface drip irrigation significantly increased cotton yields over that from furrow irrigation in 2 of 3 yr. When averaged over 3 yr, the cover crop treatments on 1 and 2 m drip line spacing and a 100% ET replacement yielded numerically more than the companion treatments without a cover crop. Across years, the SDI treatments significantly increased loan values by an average of $0.045 kg −1 over furrow-irrigated cotton. Within SDI, deficit irrigation did not appear to affect cotton yield in proportion to the amount of restricted irrigation. In 2003, a 50% reduction in ET replacement under conventional tillage reduced yield only 22%, indicating that a 100% ET replacement may not be necessary to produce economically acceptable yields. Results from this study provide preliminary evidence that cover crops may actually prove beneficial under SDI systems and could play a role in developing best management practices that incorporate conservation tillage practices.

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The Response of Cotton to Subsurface Drip and Furrow Irrigation in a Vertisol

Cited by 26 publications

References 17 publications

Radiation, water, and nitrogen use efficiencies of Gossypium hirsutum L.

Radiation, water, and nitrogen use efficiencies of Gossypium hirsutum L.

Effects of subsurface drip irrigation rates and furrow irrigation for cotton grown on a vertisol on off-site movement of sediments, nutrients and pesticides

Utilizing Subsurface Drip Irrigation and Conservation Tillage in Cotton Production Systems

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