Water Use Efficiency, Yield and Yield Components of Second Crop Sunflower Under Deficit Irrigation

Akçay, Selin; Dağdelen, Necdet

doi:10.17557/tjfc.05690

Cited by 11 publications

(9 citation statements)

References 12 publications

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“…Deficit irrigation (DI), defined as the intentional under-irrigation of crops, has been identified as a water management strategy that can improve water use in irrigated agricultural production (Klocke et al, 2004). However, this management practice can expose plants to abiotic stress that often results in plants modifying specific mechanisms and thus leading to a reduction in productivity (Akcay and Dagdelen, 2016). Thus, as crop productivity is directly related to plants ability to capture resources, such as water and light, and the efficiency with which they convert these physical resources into biological materials (Yi et al, 2010), a practical technique for quantifying plant response to its growing environment involves relating its dry matter production to either the amount of radiation captured or water transpired.…”

Section: Introductionmentioning

confidence: 99%

The Effect of Water Stress on Radiation Interception, Radiation Use Efficiency and Water Use Efficiency of Maize in a Tropical Climate

Greaves¹,

Wang²

2017

Turkish Journal of Field Crops

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This study was conducted to investigate the effect of deficit irrigation on radiation capture, radiation use efficiency (RUE) and water use efficiency (WUE) in maize production, and to assess how these factors impact biomass production in water stress environments. Five irrigation levels were investigated: a full irrigation treatment with a water depth of 60 mm (I1), and four deficit irrigation treatments with depths of 50 (I2), 40 (I3), 30 (I4) and 20 mm (I5). Crop water stress index values indicated treatments I2 and I3 caused mild water stress while I4 and I5 caused severe stress. Water deficits significantly (p<0.05) reduced leaf area index compared to full irrigation. The reduction in biomass for I2 to I5 ranged between 7 and 43% relative to I1. In I1, the RUE was 3.46 g MJ-1 , while mild and severe water stress significantly reduced it to 3.11 and 2.69 g MJ −1 , respectively. A reduction in both intercepted photosynthetically active radiation and RUE contributed significantly to biomass reduction. Mild and severe water stress improved the WUE within range of 2 and 25% and 10 and 34%, respectively. The results suggest that in mild water stress environments, high RUE aids in minimizing production losses, and in cases of severe water stress, the reduced ability to capture and utilize radiation is compensated by improving the WUE.

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Section: Introductionmentioning

confidence: 99%

The Effect of Water Stress on Radiation Interception, Radiation Use Efficiency and Water Use Efficiency of Maize in a Tropical Climate

Greaves¹,

Wang²

2017

Turkish Journal of Field Crops

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“…Thousand seed weight is one of the major yield contributing attributes (Akcay and Dagdelen, 2016). Thousand seed weight differs based on cultivars and growing conditions.…”

Section: Resultsmentioning

confidence: 99%

Yarı Kurak İklim Koşullarında Hibrid Ayçiçeği Çeşitlerinin Performanslarının Karşılaştırılması

Demir

2020

Türk Tarım Ve Doğa Bilimleri Dergisi

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“…Numerous results have been reported from North and South America, France, Italy, Serbia, India, Iran and Turkey (Sojka et al, 1989;Dragovic et al, 1992;Salera, 1992;Bahrani et al, 2009;Ada and Tamkoç, 2015;Akcay and Dagdelen, 2016;Ross, 2016). The practice however requires short-season cultivars, associated to minimum tillage and sowing soon after harvest, and sufficient irrigation for good establishment and minimization of climatic risks (cold, heavy rain) at the end of the season.…”

Section: Description Of the Practicementioning

confidence: 99%

New challenges for sunflower ideotyping in changing environments and more ecological cropping systems

Debaeke

Casadebaig

Langlade

2021

OCL

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As a rainfed spring-sown crop, sunflower (Helianthus annuus L.) is increasingly exposed to negative impacts of climate change, especially to high temperatures and drought stress. Incremental, systemic and transformative adaptations have been suggested for reducing the crop vulnerability to these stressful conditions. In addition, innovative cropping systems based on low-input management, organic farming, soil and water conservation practices, intercropping, double-cropping, and/or agroforestry are undergoing marked in agriculture. Because of its plasticity and low-input requirements (nitrogen, water, pesticides), sunflower crop is likely to take part to these new agroecological systems. Aside from current production outputs (yield, oil and cake), ecosystem services (e.g. bee feeding, soil phytoremediation…), and non-food industrial uses are now expected externalities for the crop. The combination of climatic and societal contexts could deeply modify the characteristics of genotypes to be cultivated in the main production areas (either traditional or adoptive). After reviewing these changes, we identify how innovative cropping systems and new environments could modify the traits classically considered up to now, especially in relation to expected ecosystem services. Finally, we consider how research could provide methods to help identifying traits of interest and design ideotypes.

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Water Use Efficiency, Yield and Yield Components of Second Crop Sunflower Under Deficit Irrigation

Cited by 11 publications

References 12 publications

The Effect of Water Stress on Radiation Interception, Radiation Use Efficiency and Water Use Efficiency of Maize in a Tropical Climate

The Effect of Water Stress on Radiation Interception, Radiation Use Efficiency and Water Use Efficiency of Maize in a Tropical Climate

Yarı Kurak İklim Koşullarında Hibrid Ayçiçeği Çeşitlerinin Performanslarının Karşılaştırılması

New challenges for sunflower ideotyping in changing environments and more ecological cropping systems

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