Beyond CO2: Multiple Ecosystem Services From Ecologically Intensive Grazing Landscapes of South America

Beyond CO2: Multiple Ecosystem Services From Ecologically Intensive Grazing Landscapes of South America

Sustainability assessments to inform the design of multifunctional grazing landscapes need to look beyond greenhouse gas emissions to simultaneously embrace other social and environmental criteria. Here I briefly examine trade-offs and synergies between the productivity of graze-based livestock syst...

Full description

Bibliographic Details
Main Author: Pablo Tittonell
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-06-01
Series:Frontiers in Sustainable Food Systems
Subjects:
agroecology
sustainability
livestock
trade-offs
environment
carbon footprint
Online Access:https://www.frontiersin.org/articles/10.3389/fsufs.2021.664103/full
id doaj-79cf4b04f9444218b5868aabc8d52912
record_format Article
spelling doaj-79cf4b04f9444218b5868aabc8d529122021-06-22T06:26:45ZengFrontiers Media S.A.Frontiers in Sustainable Food Systems2571-581X2021-06-01510.3389/fsufs.2021.664103664103Beyond CO2: Multiple Ecosystem Services From Ecologically Intensive Grazing Landscapes of South AmericaPablo Tittonell0Pablo Tittonell1Pablo Tittonell2Agroecology, Environment and Systems Group, Instituto de Investigaciones Forestales y Agropecuarias de Bariloche (IFAB), Instituto Nacional de Tecnología Agropecuaria-Consejo Nacional de Investigaciones Científicas y Técnicas (INTA-CONICET), San Carlos de Bariloche, ArgentinaAgroécologie et Intensification Durable (AïDA), Centre de coopération Internationale en Recherche Agronomique pour le Développement (CIRAD), Université de Montpellier, Montpellier, FranceGroningen Institute of Evolutionary Life Sciences, Groningen University, Groningen, NetherlandsSustainability assessments to inform the design of multifunctional grazing landscapes need to look beyond greenhouse gas emissions to simultaneously embrace other social and environmental criteria. Here I briefly examine trade-offs and synergies between the productivity of graze-based livestock systems and the environment, and share a few generic guidelines to design pathways for the ecological intensification of livestock systems following agroecological principles. I draw from experience on livestock farming in the Rio de la Plata Grassland Biome of South America (Argentina, Uruguay, and Brazil). Livestock systems based on native grasslands in this region may have greater carbon footprints (13–29 kg CO2 eq. kg LW−1) than intensive grass-feedlot systems in the region (9–14 kg CO2 eq. kg LW−1) or the average range reported for OECD countries (c. 10–20 kg CO2 eq. kg LW−1) when calculated per unit product, but only 20% greater when expressed on an area basis. Yet they use less external energy (10x) or nitrogen inputs (5x) per kg live weight (LW) produced, provide ecosystem services of local and global importance, such as carbon storage, habitat protection for biodiversity, watershed regulation, clean water, food and textiles, livelihoods and local cultures, and provide better living conditions for grazing animals. Traditional graze-based systems are less economically attractive than intensive livestock or grain production and they are being replaced by such activities, with negative social and environmental consequences. An ecological intensification (EI) of graze-based livestock systems is urgently needed to ensure economic profits while minimising social-ecological trade-offs on multifunctional landscapes. Examples of such EI systems exist in the region that exhibit synergies between economic and environmental goals, but a broad and lasting transition towards sustainable multifunctional landscapes based on agroecological principles requires (co-)innovation at both technical and institutional levels.https://www.frontiersin.org/articles/10.3389/fsufs.2021.664103/fullagroecologysustainabilitylivestocktrade-offsenvironmentcarbon footprint
collection DOAJ
language English
format Article
sources DOAJ
author Pablo Tittonell
Pablo Tittonell
Pablo Tittonell
spellingShingle Pablo Tittonell
Pablo Tittonell
Pablo Tittonell
Beyond CO2: Multiple Ecosystem Services From Ecologically Intensive Grazing Landscapes of South America
Frontiers in Sustainable Food Systems
agroecology
sustainability
livestock
trade-offs
environment
carbon footprint
author_facet Pablo Tittonell
Pablo Tittonell
Pablo Tittonell
author_sort Pablo Tittonell
title Beyond CO2: Multiple Ecosystem Services From Ecologically Intensive Grazing Landscapes of South America
title_short Beyond CO2: Multiple Ecosystem Services From Ecologically Intensive Grazing Landscapes of South America
title_full Beyond CO2: Multiple Ecosystem Services From Ecologically Intensive Grazing Landscapes of South America
title_fullStr Beyond CO2: Multiple Ecosystem Services From Ecologically Intensive Grazing Landscapes of South America
title_full_unstemmed Beyond CO2: Multiple Ecosystem Services From Ecologically Intensive Grazing Landscapes of South America
title_sort beyond co2: multiple ecosystem services from ecologically intensive grazing landscapes of south america
publisher Frontiers Media S.A.
series Frontiers in Sustainable Food Systems
issn 2571-581X
publishDate 2021-06-01
description Sustainability assessments to inform the design of multifunctional grazing landscapes need to look beyond greenhouse gas emissions to simultaneously embrace other social and environmental criteria. Here I briefly examine trade-offs and synergies between the productivity of graze-based livestock systems and the environment, and share a few generic guidelines to design pathways for the ecological intensification of livestock systems following agroecological principles. I draw from experience on livestock farming in the Rio de la Plata Grassland Biome of South America (Argentina, Uruguay, and Brazil). Livestock systems based on native grasslands in this region may have greater carbon footprints (13–29 kg CO2 eq. kg LW−1) than intensive grass-feedlot systems in the region (9–14 kg CO2 eq. kg LW−1) or the average range reported for OECD countries (c. 10–20 kg CO2 eq. kg LW−1) when calculated per unit product, but only 20% greater when expressed on an area basis. Yet they use less external energy (10x) or nitrogen inputs (5x) per kg live weight (LW) produced, provide ecosystem services of local and global importance, such as carbon storage, habitat protection for biodiversity, watershed regulation, clean water, food and textiles, livelihoods and local cultures, and provide better living conditions for grazing animals. Traditional graze-based systems are less economically attractive than intensive livestock or grain production and they are being replaced by such activities, with negative social and environmental consequences. An ecological intensification (EI) of graze-based livestock systems is urgently needed to ensure economic profits while minimising social-ecological trade-offs on multifunctional landscapes. Examples of such EI systems exist in the region that exhibit synergies between economic and environmental goals, but a broad and lasting transition towards sustainable multifunctional landscapes based on agroecological principles requires (co-)innovation at both technical and institutional levels.
topic agroecology
sustainability
livestock
trade-offs
environment
carbon footprint
url https://www.frontiersin.org/articles/10.3389/fsufs.2021.664103/full
work_keys_str_mv AT pablotittonell beyondco2multipleecosystemservicesfromecologicallyintensivegrazinglandscapesofsouthamerica
AT pablotittonell beyondco2multipleecosystemservicesfromecologicallyintensivegrazinglandscapesofsouthamerica
AT pablotittonell beyondco2multipleecosystemservicesfromecologicallyintensivegrazinglandscapesofsouthamerica
_version_ 1721363713618870272

Similar Items