Pablo L. Peri, Juan Gaitán, Matías Mastrangelo, Marcelo Nosetto, Pablo E. Villagra, Ezequiel Balducci, Martín Pinazo, Roxana P. Eclesia, Alejandra Von Wallis, Sebastián Villarino, Francisco Alaggia, Marina González Polo, Silvina Manrique, Pablo A. Meglioli, Julián Rodríguez-Souilla, Martín Mónaco, Jimena E. Chaves, Ariel Medina, Ignacio Gasparri, Eugenio Alvarez Arnesi, María Paula Barral, Axel von Müller, Norberto M. Pahr, Josefina Uribe Echevarria, Pedro Fernández, Marina Morsucci, Dardo López, Juan Manuel Cellini, Leandro Alvarez, Ignacio Barberis, Hernán Colomb, Ludmila La Manna, Sebastián Barbaro, Cecilia Blundo, Ximena Sirimarco, Laura Cavallero, Gualberto Zalazar, Guillermo Martínez Pastur
{"title":"阿根廷原生林中的土壤有机碳储量:气候多变情况下减缓和保护规划的有用替代物","authors":"Pablo L. Peri, Juan Gaitán, Matías Mastrangelo, Marcelo Nosetto, Pablo E. Villagra, Ezequiel Balducci, Martín Pinazo, Roxana P. Eclesia, Alejandra Von Wallis, Sebastián Villarino, Francisco Alaggia, Marina González Polo, Silvina Manrique, Pablo A. Meglioli, Julián Rodríguez-Souilla, Martín Mónaco, Jimena E. Chaves, Ariel Medina, Ignacio Gasparri, Eugenio Alvarez Arnesi, María Paula Barral, Axel von Müller, Norberto M. Pahr, Josefina Uribe Echevarria, Pedro Fernández, Marina Morsucci, Dardo López, Juan Manuel Cellini, Leandro Alvarez, Ignacio Barberis, Hernán Colomb, Ludmila La Manna, Sebastián Barbaro, Cecilia Blundo, Ximena Sirimarco, Laura Cavallero, Gualberto Zalazar, Guillermo Martínez Pastur","doi":"10.1186/s13717-023-00474-5","DOIUrl":null,"url":null,"abstract":"The nationally determined contribution (NDC) presented by Argentina within the framework of the Paris Agreement is aligned with the decisions made in the context of the United Nations Framework Convention on Climate Change (UNFCCC) on the reduction of emissions derived from deforestation and forest degradation, as well as forest carbon conservation (REDD+). In addition, climate change constitutes one of the greatest threats to forest biodiversity and ecosystem services. However, the soil organic carbon (SOC) stocks of native forests have not been incorporated into the Forest Reference Emission Levels calculations and for conservation planning under climate variability due to a lack of information. The objectives of this study were: (i) to model SOC stocks to 30 cm of native forests at a national scale using climatic, topographic and vegetation as predictor variables, and (ii) to relate SOC stocks with spatial–temporal remotely sensed indices to determine biodiversity conservation concerns due to threats from high inter-annual climate variability. We used 1040 forest soil samples (0–30 cm) to generate spatially explicit estimates of SOC native forests in Argentina at a spatial resolution of approximately 200 m. We selected 52 potential predictive environmental covariates, which represent key factors for the spatial distribution of SOC. All covariate maps were uploaded to the Google Earth Engine cloud-based computing platform for subsequent modelling. To determine the biodiversity threats from high inter-annual climate variability, we employed the spatial–temporal satellite-derived indices based on Enhanced Vegetation Index (EVI) and land surface temperature (LST) images from Landsat imagery. SOC model (0–30 cm depth) prediction accounted for 69% of the variation of this soil property across the whole native forest coverage in Argentina. Total mean SOC stock reached 2.81 Pg C (2.71–2.84 Pg C with a probability of 90%) for a total area of 460,790 km2, where Chaco forests represented 58.4% of total SOC stored, followed by Andean Patagonian forests (16.7%) and Espinal forests (10.0%). SOC stock model was fitted as a function of regional climate, which greatly influenced forest ecosystems, including precipitation (annual mean precipitation and precipitation of warmest quarter) and temperature (day land surface temperature, seasonality, maximum temperature of warmest month, month of maximum temperature, night land surface temperature, and monthly minimum temperature). Biodiversity was influenced by the SOC levels and the forest regions. In the framework of the Kyoto Protocol and REDD+, information derived in the present work from the estimate of SOC in native forests can be incorporated into the annual National Inventory Report of Argentina to assist forest management proposals. It also gives insight into how native forests can be more resilient to reduce the impact of biodiversity loss.","PeriodicalId":11419,"journal":{"name":"Ecological Processes","volume":"10 1","pages":""},"PeriodicalIF":4.6000,"publicationDate":"2024-01-05","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Soil organic carbon stocks in native forest of Argentina: a useful surrogate for mitigation and conservation planning under climate variability\",\"authors\":\"Pablo L. Peri, Juan Gaitán, Matías Mastrangelo, Marcelo Nosetto, Pablo E. Villagra, Ezequiel Balducci, Martín Pinazo, Roxana P. Eclesia, Alejandra Von Wallis, Sebastián Villarino, Francisco Alaggia, Marina González Polo, Silvina Manrique, Pablo A. Meglioli, Julián Rodríguez-Souilla, Martín Mónaco, Jimena E. Chaves, Ariel Medina, Ignacio Gasparri, Eugenio Alvarez Arnesi, María Paula Barral, Axel von Müller, Norberto M. 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However, the soil organic carbon (SOC) stocks of native forests have not been incorporated into the Forest Reference Emission Levels calculations and for conservation planning under climate variability due to a lack of information. The objectives of this study were: (i) to model SOC stocks to 30 cm of native forests at a national scale using climatic, topographic and vegetation as predictor variables, and (ii) to relate SOC stocks with spatial–temporal remotely sensed indices to determine biodiversity conservation concerns due to threats from high inter-annual climate variability. We used 1040 forest soil samples (0–30 cm) to generate spatially explicit estimates of SOC native forests in Argentina at a spatial resolution of approximately 200 m. We selected 52 potential predictive environmental covariates, which represent key factors for the spatial distribution of SOC. All covariate maps were uploaded to the Google Earth Engine cloud-based computing platform for subsequent modelling. To determine the biodiversity threats from high inter-annual climate variability, we employed the spatial–temporal satellite-derived indices based on Enhanced Vegetation Index (EVI) and land surface temperature (LST) images from Landsat imagery. SOC model (0–30 cm depth) prediction accounted for 69% of the variation of this soil property across the whole native forest coverage in Argentina. Total mean SOC stock reached 2.81 Pg C (2.71–2.84 Pg C with a probability of 90%) for a total area of 460,790 km2, where Chaco forests represented 58.4% of total SOC stored, followed by Andean Patagonian forests (16.7%) and Espinal forests (10.0%). 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Soil organic carbon stocks in native forest of Argentina: a useful surrogate for mitigation and conservation planning under climate variability
The nationally determined contribution (NDC) presented by Argentina within the framework of the Paris Agreement is aligned with the decisions made in the context of the United Nations Framework Convention on Climate Change (UNFCCC) on the reduction of emissions derived from deforestation and forest degradation, as well as forest carbon conservation (REDD+). In addition, climate change constitutes one of the greatest threats to forest biodiversity and ecosystem services. However, the soil organic carbon (SOC) stocks of native forests have not been incorporated into the Forest Reference Emission Levels calculations and for conservation planning under climate variability due to a lack of information. The objectives of this study were: (i) to model SOC stocks to 30 cm of native forests at a national scale using climatic, topographic and vegetation as predictor variables, and (ii) to relate SOC stocks with spatial–temporal remotely sensed indices to determine biodiversity conservation concerns due to threats from high inter-annual climate variability. We used 1040 forest soil samples (0–30 cm) to generate spatially explicit estimates of SOC native forests in Argentina at a spatial resolution of approximately 200 m. We selected 52 potential predictive environmental covariates, which represent key factors for the spatial distribution of SOC. All covariate maps were uploaded to the Google Earth Engine cloud-based computing platform for subsequent modelling. To determine the biodiversity threats from high inter-annual climate variability, we employed the spatial–temporal satellite-derived indices based on Enhanced Vegetation Index (EVI) and land surface temperature (LST) images from Landsat imagery. SOC model (0–30 cm depth) prediction accounted for 69% of the variation of this soil property across the whole native forest coverage in Argentina. Total mean SOC stock reached 2.81 Pg C (2.71–2.84 Pg C with a probability of 90%) for a total area of 460,790 km2, where Chaco forests represented 58.4% of total SOC stored, followed by Andean Patagonian forests (16.7%) and Espinal forests (10.0%). SOC stock model was fitted as a function of regional climate, which greatly influenced forest ecosystems, including precipitation (annual mean precipitation and precipitation of warmest quarter) and temperature (day land surface temperature, seasonality, maximum temperature of warmest month, month of maximum temperature, night land surface temperature, and monthly minimum temperature). Biodiversity was influenced by the SOC levels and the forest regions. In the framework of the Kyoto Protocol and REDD+, information derived in the present work from the estimate of SOC in native forests can be incorporated into the annual National Inventory Report of Argentina to assist forest management proposals. It also gives insight into how native forests can be more resilient to reduce the impact of biodiversity loss.
期刊介绍:
Ecological Processes is an international, peer-reviewed, open access journal devoted to quality publications in ecological studies with a focus on the underlying processes responsible for the dynamics and functions of ecological systems at multiple spatial and temporal scales. The journal welcomes manuscripts on techniques, approaches, concepts, models, reviews, syntheses, short communications and applied research for advancing our knowledge and capability toward sustainability of ecosystems and the environment. Integrations of ecological and socio-economic processes are strongly encouraged.