The potential of organic fertilizers and water management to reduce N2O emissions in Mediterranean climate cropping systems. A review

Aguilera, Eduardo; Lassaletta, Luis; Sanz-Cobeña, Alberto; Garnier, Josette; Vallejo, Antonio

doi:10.1016/j.agee.2012.09.006

Cited by 327 publications

(216 citation statements)

References 163 publications

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“…The type of fertilizer does not seem to represent a driver of the yield gap between organic and conventional production that we found, as other studies under Mediterranean conditions have shown that yields are not affected by fertilizer type and could even be increased by the presence of organic inputs (Palese et al 2013; see also Aguilera et al 2013b). Therefore, there is a need for more research in order to close this yield gap; e.g., in irrigated organic fruits, this gap is mainly due to pest and disease problems, which are not well controlled.…”

Section: Bridging the Yield Gapsupporting

confidence: 65%

“…Reduced fossil energy consumption in organic orchards (Guzmán and Alonso 2008;Alonso and Guzmán 2010) suggests that there may also exist greenhouse gas emissions savings in these systems, taking into account the high importance of energy-related emissions in the carbon footprint of herbaceous Spanish cropping systems . At the soil level, evidence suggests low N 2 O emissions associated to organic fertilizers (Aguilera et al 2013b) and higher soil organic carbon (SOC) stocks in organically managed soils under Mediterranean climate (Aguilera et al 2013a). All these features point to a large mitigation potential of Mediterranean fruit tree orchards and particularly of organic agro-ecosystems, but comprehensive assessments of their global warming potential are very scarce.…”

Section: Introductionmentioning

confidence: 99%

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Greenhouse gas emissions from conventional and organic cropping systems in Spain. II. Fruit tree orchards

Aguilera

Guzmán

Alonso

2014

Agron. Sustain. Dev.

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137

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Fruit tree orchards have a historical and economic importance for Mediterranean agriculture, notably in Spain. Fruit tree orchards have the potential to mitigate global warming by sequestrating carbon (C) and providing renewable fuels. Actually, there is few information on the benefits of organic practices. Therefore, we analyzed the greenhouse gas contribution of 42 pairs of organic and conventional perennial cropping systems, including citrus, subtropical trees, other fruit trees, treenuts, vineyards, and olives, using life-cycle assessment (LCA). The assessment was based on management information from interviews and involved the estimation of soil carbon sequestration, specific Mediterranean N 2 O emission factors, and the consideration of coproducts. Results show on average a 56 % decrease of greenhouse gas emissions under organic versus conventional cropping, on an area basis. On a product basis, greenhouse gas emissions decreased by 39 % on average. These findings are explained mainly by C sequestration in soils, which is due in turn to higher C inputs by cover cropping and incorporation of pruning residues.

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Section: Bridging the Yield Gapsupporting

confidence: 65%

Section: Introductionmentioning

confidence: 99%

Greenhouse gas emissions from conventional and organic cropping systems in Spain. II. Fruit tree orchards

Aguilera

Guzmán

Alonso

2014

Agron. Sustain. Dev.

Self Cite

137

View full text Add to dashboard Cite

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“…However, this strategy is only applicable in certain developed areas with nutrient surpluses. Another recent work shows a decrease in N 2 O emissions when using organic fertilizers in comparison with the use of synthetic products in dryland areas (Aguilera et al 2013b).…”

Section: Adoption Of More Efficient Water Management Practicesmentioning

confidence: 99%

Carbon management in dryland agricultural systems. A review

Plaza‐Bonilla¹,

Arrúe

Cantero‐Martínez

et al. 2015

Agron. Sustain. Dev.

128

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“…All emission data were additionally compared with ammonium nitrate (AN) in FG. These data were gathered from a meta study comparing different irrigation systems (drip, furrow, rainfed) in Mediterranean climates (Aguilera et al 2013b). Production of the irrigation equipment and its transportation was not taken into account, because it was assumed that FG only takes place in regions were irrigation is a standard measure in all cultivation systems.…”

Section: Stabilized Nitrogen Fertilizermentioning

confidence: 99%

“…Irrigation is mostly applied during summer periods when soil temperature, and due to irrigation also the soil moisture conditions for N 2 O production after fertilizer application, are more favourable (Jambert et al 1997, Hao et al 2001, Scheer et al 2008, Aguilera et al 2013b) and therefore a strong stimulation of the N 2 O fluxes might occur. Adapting nitrogen supply closely to crop nitrogen demand during the vegetation period and thereby lowering nitrogen peaks in the soil might be the most important reason for overall lower N 2 O emission via fertigation.…”

mentioning

confidence: 99%

Eco-innovations in the German fertilizer supply chain: Impact on the carbon footprint of fertilizers

Hasler¹,

Bröring²,

Omta³

et al. 2017

Plant Soil Environ.

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The aim of this paper is to analyse to what extent the existing eco-innovations in the German fertilizer domain might reduce the fertilizer carbon footprint without compromising on crop productivity. The continuously growing demand for agricultural products will require a further increase in agricultural production mostly achieved with additional external inputs (fossil energy, pesticides, irrigation water and fertilizers). Fertilizer in general and nitrogen fertilizers in particular are major factors for yield increases in crop production. On the other hand, emissions of greenhouse gases play a dominant role in the debate on the environmental burden of fertilizers. Typical mineral fertilizers were compared with so-called stabilized nitrogen fertilizers and secondary raw material fertilizers in this study. Additionally, an effect of the combination of irrigation with fertilization (i.e. fertigation) was investigated. With an adopted life cycle assessment approach focusing on CO<sub>2</sub> and N<sub>2</sub>O emission, the carbon footprints of the different fertilizer options were considered. The calculations showed that especially the use of stabilized nitrogen fertilizer reduced the fertilization-related carbon footprint up to 13%. However, because of higher costs or incomplete supply chain relationships, adoption of these innovations is expected to be rather limited in the near future. Fertilizers made from secondary raw materials resulted in similar carbon footprints as mineral ones, but they can help to close nutrient cycles and use by-products of other production processes.

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The potential of organic fertilizers and water management to reduce N2O emissions in Mediterranean climate cropping systems. A review

Cited by 327 publications

References 163 publications

Greenhouse gas emissions from conventional and organic cropping systems in Spain. II. Fruit tree orchards

Greenhouse gas emissions from conventional and organic cropping systems in Spain. II. Fruit tree orchards

Carbon management in dryland agricultural systems. A review

Eco-innovations in the German fertilizer supply chain: Impact on the carbon footprint of fertilizers

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