Spatial expansion of avocado in Mexico: Could the energy use of pruning residues offset orchard GHG emissions?

Avocado orchards ( Persea americana ) in Mexico are constantly being expanded to meet the increasing demand for the fruit in the national and international markets. The land-use change (LUC) caused by this expansion has numerous negative impacts, including greenhouse gas (GHG) emissions due to the l...

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Veröffentlicht in:	Environment, development and sustainability development and sustainability, 2024-11, Vol.26 (11), p.27325-27350
Hauptverfasser:	Tauro, Raúl, Manrique, Silvina, Franch-Pardo, Iván, Charre-Medellin, Juan F., Ortega-Riascos, Cristian E., Soria-González, José A., Armendáriz-Arnez, Cynthia
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Schlagworte:	avocados biomass Biomass burning Burning Cultivation Decision makers decision making Earth and Environmental Science Ecology Economic Geology Economic Growth Emissions energy Energy consumption Environment Environmental Economics Environmental Management forests Fossil fuels fruits Greenhouse gases International markets Land use land use change Mexico Orchards Persea americana Pruning Residues Sustainable Development
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container_issue	11
container_start_page	27325
container_title	Environment, development and sustainability
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creator	Tauro, Raúl Manrique, Silvina Franch-Pardo, Iván Charre-Medellin, Juan F. Ortega-Riascos, Cristian E. Soria-González, José A. Armendáriz-Arnez, Cynthia
description	Avocado orchards ( Persea americana ) in Mexico are constantly being expanded to meet the increasing demand for the fruit in the national and international markets. The land-use change (LUC) caused by this expansion has numerous negative impacts, including greenhouse gas (GHG) emissions due to the loss of forest cover and the burning of pruning residues. To generate a comprehensive evaluation of this complex environmental issue, we calculate emissions from LUC and from residue burning between 1974 and 2017 at a local scale (1:20,000), and the energy potential of pruning residues was estimated as an alternative to revalue a waste product and mitigate the negative impacts of avocado cultivation. Our results show that land-use conversions emitted 390.5 GgCO 2 , of which 91% came from conversions to avocado orchards. Emissions of GHG from biomass burning amounted to an additional 20.68 GgCO 2 e released per year. Given that around 12,600 tons of dry avocado pruning residues are generated annually in the study region, their use for energy generation could replace 240 TJ/year of fossil fuels in rural industries and could mitigate around 31 GgCO 2 e per year. This study provides decision-makers with a concrete example of how to establish multiple-impact strategies at local scales.
doi_str_mv	10.1007/s10668-023-03762-4
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The land-use change (LUC) caused by this expansion has numerous negative impacts, including greenhouse gas (GHG) emissions due to the loss of forest cover and the burning of pruning residues. To generate a comprehensive evaluation of this complex environmental issue, we calculate emissions from LUC and from residue burning between 1974 and 2017 at a local scale (1:20,000), and the energy potential of pruning residues was estimated as an alternative to revalue a waste product and mitigate the negative impacts of avocado cultivation. Our results show that land-use conversions emitted 390.5 GgCO 2 , of which 91% came from conversions to avocado orchards. Emissions of GHG from biomass burning amounted to an additional 20.68 GgCO 2 e released per year. Given that around 12,600 tons of dry avocado pruning residues are generated annually in the study region, their use for energy generation could replace 240 TJ/year of fossil fuels in rural industries and could mitigate around 31 GgCO 2 e per year. 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The land-use change (LUC) caused by this expansion has numerous negative impacts, including greenhouse gas (GHG) emissions due to the loss of forest cover and the burning of pruning residues. To generate a comprehensive evaluation of this complex environmental issue, we calculate emissions from LUC and from residue burning between 1974 and 2017 at a local scale (1:20,000), and the energy potential of pruning residues was estimated as an alternative to revalue a waste product and mitigate the negative impacts of avocado cultivation. Our results show that land-use conversions emitted 390.5 GgCO 2 , of which 91% came from conversions to avocado orchards. Emissions of GHG from biomass burning amounted to an additional 20.68 GgCO 2 e released per year. Given that around 12,600 tons of dry avocado pruning residues are generated annually in the study region, their use for energy generation could replace 240 TJ/year of fossil fuels in rural industries and could mitigate around 31 GgCO 2 e per year. 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The land-use change (LUC) caused by this expansion has numerous negative impacts, including greenhouse gas (GHG) emissions due to the loss of forest cover and the burning of pruning residues. To generate a comprehensive evaluation of this complex environmental issue, we calculate emissions from LUC and from residue burning between 1974 and 2017 at a local scale (1:20,000), and the energy potential of pruning residues was estimated as an alternative to revalue a waste product and mitigate the negative impacts of avocado cultivation. Our results show that land-use conversions emitted 390.5 GgCO 2 , of which 91% came from conversions to avocado orchards. Emissions of GHG from biomass burning amounted to an additional 20.68 GgCO 2 e released per year. 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subjects	avocados biomass Biomass burning Burning Cultivation Decision makers decision making Earth and Environmental Science Ecology Economic Geology Economic Growth Emissions energy Energy consumption Environment Environmental Economics Environmental Management forests Fossil fuels fruits Greenhouse gases International markets Land use land use change Mexico Orchards Persea americana Pruning Residues Sustainable Development
title	Spatial expansion of avocado in Mexico: Could the energy use of pruning residues offset orchard GHG emissions?
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