Effects of Different Irrigation Water Types, N Fertilizer Types, and Soil Moisture Contents on N2O Emissions and N Fertilizer Transformations in Soils

Shang, Fangze; Ren, Shumei; Yang, Peiling; Chi, Yanbing; Xue, Yandong

doi:10.1007/s11270-016-2920-1

Cited by 12 publications

(2 citation statements)

References 38 publications

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“…A meta-analysis of several strategies to control nitrate leaching led to the conclusion that the group of strategies based on improving water irrigation management had the largest effect [88]. Irrigation water management has a significant impact on N losses not only because it controls the nutrient delivery to the water bodies (transport type method), but also as a mitigation method at the source, since moisture content controls most of the biochemical reactions leading to N transformations [95]. Irrigation water management can be improved at different levels, as described next.…”

Section: Irrigation Water Managementmentioning

confidence: 99%

Nitrogen Related Diffuse Pollution from Horticulture Production—Mitigation Practices and Assessment Strategies

Cameira

Mota

2017

Horticulturae

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Abstract:Agriculture is considered one of the main nitrogen (N) pollution sources through the diffuse emissions of ammonia (NH 3 ) and nitrous oxide (N 2 O) to the atmosphere and nitrate (NO 3 − ) to water bodies. The risk is particularly high in horticultural production systems (HPS), where the use of water and fertilizers is intensive and concentrated in space and time, and more specifically, in the case of vegetable crops that have high growth rates, demanding an abundant supply of water and nitrogen forms. Therefore, to comply with the EU environmental policies aimed at reducing diffuse pollution in agriculture, there is the need for mitigation practices or strategies acting at different levels such as the source, the timing and the transport of N. HPS are often well suited for improvement practices, but efficient and specific tools capable of describing and quantifying N losses for these particular production systems are required. The most common mitigation strategies found in the literature relate to crop, irrigation and fertilization management. Nevertheless, only the success of a mitigation strategy under specific conditions will allow its implementation to be increasingly targeted and more cost effective. Assessment methods are therefore required to evaluate and to quantify the impact of mitigation strategies in HPS and to select the most promising ones.

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Section: Irrigation Water Managementmentioning

confidence: 99%

Nitrogen Related Diffuse Pollution from Horticulture Production—Mitigation Practices and Assessment Strategies

Cameira

Mota

2017

Horticulturae

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“…However, over use of N fertilizer that is a common practice in agriculture can result in significant N losses. Moreover, over use of N fertilizer is responsible for air pollution, eutrophication and groundwater pollution (Jussy et al, 2004;Sutton et al, 2011;Yang et al, 2015;Shang et al, 2016). Therefore, effective measures to reduce N losses in agriculture have received considerable attentions in various areas, especially in irrigated area (Cameron et al, 2013;Geng et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

Effects of three types of soil amendments on yield and soil nitrogen balance of maize-wheat rotation system in the Hetao Irrigation Area, China

Zheng

et al. 2019

J. Arid Land

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Excessive fertilization combined with unreasonable irrigation in farmland of the Hetao Irrigation Area (HIR), China, has resulted in a large amount of nitrogen (N) losses and agricultural non-point source pollution. Application of soil amendments has become one of the important strategies for reducing N losses of farmland. However, there is still no systematic study on the effects of various soil amendments on N losses in the HIR. In this study, three types of soil amendments (biochar, bentonite and polyacrylamide) were applied in a maize-wheat rotation system in the HIR during 2015-2017. Yields of maize and wheat, soil NH 3 volatilization, N 2 O emission and NO 3leaching were determined and soil N balance was estimated. The results showed that applications of biochar, bentonite and polyacrylamide significantly increased yields of maize by 9.2%, 14.3% and 13.3%, respectively, and wheat by 9.2%, 16.6% and 12.3%, respectively, compared with the control (fertilization alone). Applications of biochar, bentonite and polyacrylamide significantly reduced soil N leaching by 23.1%, 35.5% and 27.1%, soil NH 3-N volatilization by 34.8%, 52.7% and 37.8%, and soil N surplus by 23.9%, 37.4% and 30.6%, respectively. Applications of bentonite and polyacrylamide significantly reduced N 2 ON emissions from soil by 37.3% and 35.8%, respectively, compared with the control. Compared with application of biochar, applications of bentonite and polyacrylamide increased yields of maize and wheat by 5.1% and 3.5%, respectively. Our results suggest that soil amendments (bentonite and polyacrylamide) can play important roles in reducing N losses and increasing yield for the maize-wheat rotation system in the HIR, China.

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Balancing the Nitrogen Derived from Sewage Effluent and Fertilizers Applied with Drip Irrigation

Guo

et al. 2016

Water Air Soil Pollut

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Effects of Different Irrigation Water Types, N Fertilizer Types, and Soil Moisture Contents on N2O Emissions and N Fertilizer Transformations in Soils

Cited by 12 publications

References 38 publications

Nitrogen Related Diffuse Pollution from Horticulture Production—Mitigation Practices and Assessment Strategies

Nitrogen Related Diffuse Pollution from Horticulture Production—Mitigation Practices and Assessment Strategies

Effects of three types of soil amendments on yield and soil nitrogen balance of maize-wheat rotation system in the Hetao Irrigation Area, China

Balancing the Nitrogen Derived from Sewage Effluent and Fertilizers Applied with Drip Irrigation

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