Implications for Greenhouse Gas Emission Reductions and Economics of a Changing Agricultural Mosaic in the Sacramento–San Joaquin Delta

https://doi.org/10.15447/sfews.2017v15iss3art2 We quantified the greenhouse-gas (GHG) emission and economic implications of alternative crop and wetland mosaics on a Sacramento–San Joaquin Delta island: Staten Island. Using existing GHG fluxes measurements for the Delta and biogeochemical models, we...

Full description

Bibliographic Details
Main Authors: Deverel, Steven, Jacobs, Paul, Lucero, Christina, Dore, Sabina, Kelsey, T. Rodd
Format: Article in Journal/Newspaper
Language:English
Published: eScholarship, University of California 2017
Subjects:
greeenhouse-gas (GHG) emission
Sacramento–San Joaquin Delta
GHG emission reduction
wetland
rice
carbon dioxide fluxes
methane fluxes
nitrous oxide fluxes
carbon offset
carbon cycle
agricultural economics
Delta Island
Online Access:http://www.escholarship.org/uc/item/99z2z7hb
id ftcdlib:qt99z2z7hb
record_format openpolar
spelling ftcdlib:qt99z2z7hb 2023-05-15T16:00:31+02:00 Implications for Greenhouse Gas Emission Reductions and Economics of a Changing Agricultural Mosaic in the Sacramento–San Joaquin Delta Deverel, Steven Jacobs, Paul Lucero, Christina Dore, Sabina Kelsey, T. Rodd 2017-01-01 application/pdf http://www.escholarship.org/uc/item/99z2z7hb english eng eScholarship, University of California qt99z2z7hb http://www.escholarship.org/uc/item/99z2z7hb Attribution (CC BY): http://creativecommons.org/licenses/by/3.0/ CC-BY Deverel, Steven; Jacobs, Paul; Lucero, Christina; Dore, Sabina; & Kelsey, T. Rodd. (2017). Implications for Greenhouse Gas Emission Reductions and Economics of a Changing Agricultural Mosaic in the Sacramento–San Joaquin Delta. San Francisco Estuary and Watershed Science, 15(3). Retrieved from: http://www.escholarship.org/uc/item/99z2z7hb greeenhouse-gas (GHG) emission Sacramento–San Joaquin Delta GHG emission reduction wetland rice carbon dioxide fluxes methane fluxes nitrous oxide fluxes carbon offset carbon cycle agricultural economics article 2017 ftcdlib 2019-01-25T23:52:18Z https://doi.org/10.15447/sfews.2017v15iss3art2 We quantified the greenhouse-gas (GHG) emission and economic implications of alternative crop and wetland mosaics on a Sacramento–San Joaquin Delta island: Staten Island. Using existing GHG fluxes measurements for the Delta and biogeochemical models, we estimated GHG emissions for a range of scenarios, including the status quo, modified groundwater management, and incorporating rice and managed wetlands. For current land uses, emissions were predicted to vary greatly (48,000 to 105,000 t CO2-e yr− 1) with varying groundwater depth. GHG emissions were highest when water depth was 120 cm, the typical depth for a Delta island, and lowest if water table depth was shallowest (60 cm). In the alternate land-use scenarios, we simulated wetlands and rice cultivation in areas of highest organic-matter soils, greatest subsidence, and GHG emissions. For each scenario, we analyzed economic implications for the land-owner by determining profit changes relative to the status quo. We spatially assigned areas for rice and wetlands, and then allowed the Delta Agricultural Production (DAP) model to optimize the allocation of other crops to maximize profit. The scenario that included wetlands decreased profits 79% relative to the status quo but reduced GHG emissions by 43,000 t CO2-e yr− 1 (57% reduction). When mixtures of rice and wetlands were introduced, farm profits decreased 16%, and the GHG emission reduction was 33,000 t CO2-e yr− 1 (44% reduction). When rice was cultivated on 38% of the island, profit increased 12% and emissions were 22,000 t CO2-e yr− 1 lower than baseline emissions (30% reduction). Conversion to a mosaic of wetlands and crops including rice could substantially reduce overall GHG emissions of cultivated lands in the Delta without greatly affecting profitability. Article in Journal/Newspaper Delta Island University of California: eScholarship
institution Open Polar
collection University of California: eScholarship
op_collection_id ftcdlib
language English
topic greeenhouse-gas (GHG) emission
Sacramento–San Joaquin Delta
GHG emission reduction
wetland
rice
carbon dioxide fluxes
methane fluxes
nitrous oxide fluxes
carbon offset
carbon cycle
agricultural economics
spellingShingle greeenhouse-gas (GHG) emission
Sacramento–San Joaquin Delta
GHG emission reduction
wetland
rice
carbon dioxide fluxes
methane fluxes
nitrous oxide fluxes
carbon offset
carbon cycle
agricultural economics
Deverel, Steven
Jacobs, Paul
Lucero, Christina
Dore, Sabina
Kelsey, T. Rodd
Implications for Greenhouse Gas Emission Reductions and Economics of a Changing Agricultural Mosaic in the Sacramento–San Joaquin Delta
topic_facet greeenhouse-gas (GHG) emission
Sacramento–San Joaquin Delta
GHG emission reduction
wetland
rice
carbon dioxide fluxes
methane fluxes
nitrous oxide fluxes
carbon offset
carbon cycle
agricultural economics
description https://doi.org/10.15447/sfews.2017v15iss3art2 We quantified the greenhouse-gas (GHG) emission and economic implications of alternative crop and wetland mosaics on a Sacramento–San Joaquin Delta island: Staten Island. Using existing GHG fluxes measurements for the Delta and biogeochemical models, we estimated GHG emissions for a range of scenarios, including the status quo, modified groundwater management, and incorporating rice and managed wetlands. For current land uses, emissions were predicted to vary greatly (48,000 to 105,000 t CO2-e yr− 1) with varying groundwater depth. GHG emissions were highest when water depth was 120 cm, the typical depth for a Delta island, and lowest if water table depth was shallowest (60 cm). In the alternate land-use scenarios, we simulated wetlands and rice cultivation in areas of highest organic-matter soils, greatest subsidence, and GHG emissions. For each scenario, we analyzed economic implications for the land-owner by determining profit changes relative to the status quo. We spatially assigned areas for rice and wetlands, and then allowed the Delta Agricultural Production (DAP) model to optimize the allocation of other crops to maximize profit. The scenario that included wetlands decreased profits 79% relative to the status quo but reduced GHG emissions by 43,000 t CO2-e yr− 1 (57% reduction). When mixtures of rice and wetlands were introduced, farm profits decreased 16%, and the GHG emission reduction was 33,000 t CO2-e yr− 1 (44% reduction). When rice was cultivated on 38% of the island, profit increased 12% and emissions were 22,000 t CO2-e yr− 1 lower than baseline emissions (30% reduction). Conversion to a mosaic of wetlands and crops including rice could substantially reduce overall GHG emissions of cultivated lands in the Delta without greatly affecting profitability.
format Article in Journal/Newspaper
author Deverel, Steven
Jacobs, Paul
Lucero, Christina
Dore, Sabina
Kelsey, T. Rodd
author_facet Deverel, Steven
Jacobs, Paul
Lucero, Christina
Dore, Sabina
Kelsey, T. Rodd
author_sort Deverel, Steven
title Implications for Greenhouse Gas Emission Reductions and Economics of a Changing Agricultural Mosaic in the Sacramento–San Joaquin Delta
title_short Implications for Greenhouse Gas Emission Reductions and Economics of a Changing Agricultural Mosaic in the Sacramento–San Joaquin Delta
title_full Implications for Greenhouse Gas Emission Reductions and Economics of a Changing Agricultural Mosaic in the Sacramento–San Joaquin Delta
title_fullStr Implications for Greenhouse Gas Emission Reductions and Economics of a Changing Agricultural Mosaic in the Sacramento–San Joaquin Delta
title_full_unstemmed Implications for Greenhouse Gas Emission Reductions and Economics of a Changing Agricultural Mosaic in the Sacramento–San Joaquin Delta
title_sort implications for greenhouse gas emission reductions and economics of a changing agricultural mosaic in the sacramento–san joaquin delta
publisher eScholarship, University of California
publishDate 2017
url http://www.escholarship.org/uc/item/99z2z7hb
genre Delta Island
genre_facet Delta Island
op_source Deverel, Steven; Jacobs, Paul; Lucero, Christina; Dore, Sabina; & Kelsey, T. Rodd. (2017). Implications for Greenhouse Gas Emission Reductions and Economics of a Changing Agricultural Mosaic in the Sacramento–San Joaquin Delta. San Francisco Estuary and Watershed Science, 15(3). Retrieved from: http://www.escholarship.org/uc/item/99z2z7hb
op_relation qt99z2z7hb
http://www.escholarship.org/uc/item/99z2z7hb
op_rights Attribution (CC BY): http://creativecommons.org/licenses/by/3.0/
op_rightsnorm CC-BY
_version_ 1766396500478263296

Similar Items