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滴灌施肥作物缓解温室气体和氮氧化物排放的灌频和氮肥管理。

Management of irrigation frequency and nitrogen fertilization to mitigate GHG and NO emissions from drip-fertigated crops.

机构信息

ETSI Agronomos, Technical University of Madrid, Ciudad Universitaria, 28040 Madrid, Spain.

ETSI Agronomos, Technical University of Madrid, Ciudad Universitaria, 28040 Madrid, Spain.

出版信息

Sci Total Environ. 2014 Aug 15;490:880-8. doi: 10.1016/j.scitotenv.2014.05.065. Epub 2014 Jun 5.

DOI:10.1016/j.scitotenv.2014.05.065
PMID:24908647
Abstract

Drip irrigation combined with split application of fertilizer nitrogen (N) dissolved in the irrigation water (i.e. drip fertigation) is commonly considered best management practice for water and nutrient efficiency. As a consequence, its use is becoming widespread. Some of the main factors (water-filled pore space, NH4(+) and NO3(-)) regulating the emissions of greenhouse gases (i.e. N2O, CO2 and CH4) and NO from agroecosystems can easily be manipulated by drip fertigation without yield penalties. In this study, we tested management options to reduce these emissions in a field experiment with a melon (Cucumis melo L.) crop. Treatments included drip irrigation frequency (weekly/daily) and type of N fertilizer (urea/calcium nitrate) applied by fertigation. Crop yield, environmental parameters, soil mineral N concentrations and fluxes of N2O, NO, CH4 and CO2 were measured during 85 days. Fertigation with urea instead of calcium nitrate increased N2O and NO emissions by a factor of 2.4 and 2.9, respectively (P<0.005). Daily irrigation reduced NO emissions by 42% (P<0.005) but increased CO2 emissions by 21% (P<0.05) compared with weekly irrigation. We found no relation between irrigation frequency and N2O emissions. Based on yield-scaled Global Warming Potential as well as NO cumulative emissions, we conclude that weekly fertigation with a NO3(-)-based fertilizer is the best option to combine agronomic productivity with environmental sustainability. Our study shows that adequate management of drip fertigation, while contributing to the attainment of water and food security, may provide an opportunity for climate change mitigation.

摘要

滴灌与肥料氮(N)在灌溉水中的分施(即滴灌施肥)相结合,通常被认为是提高水和养分效率的最佳管理实践。因此,它的应用越来越广泛。一些主要因素(水充满的孔隙空间、NH4(+)和 NO3(-))可以通过滴灌施肥轻松控制,而不会对产量造成损失,这些因素调节着农业生态系统中温室气体(即 N2O、CO2 和 CH4)和 NO 的排放。在这项研究中,我们通过田间试验测试了一些管理选项,以减少甜瓜(Cucumis melo L.)作物中这些排放。处理包括滴灌频率(每周/每天)和通过滴灌施肥施用的 N 肥类型(尿素/硝酸钙)。在 85 天的时间里,测量了作物产量、环境参数、土壤矿质 N 浓度以及 N2O、NO、CH4 和 CO2 的通量。与使用硝酸钙相比,用尿素进行滴灌施肥分别增加了 N2O 和 NO 排放 2.4 倍和 2.9 倍(P<0.005)。与每周灌溉相比,每天灌溉减少了 42%的 NO 排放(P<0.005),但增加了 21%的 CO2 排放(P<0.05)。我们没有发现灌溉频率与 N2O 排放之间的关系。基于产量标准化的全球升温潜能值以及 NO 累积排放量,我们得出结论,每周使用基于 NO3(-)的肥料进行滴灌施肥是将农业生产力与环境可持续性相结合的最佳选择。我们的研究表明,滴灌施肥的充分管理,在有助于实现水和粮食安全的同时,也为气候变化缓解提供了机会。

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