Spatial and Temporal Responses to an Emissions Trading Scheme Covering Agriculture and Forestry: Simulation Results from New Zealand

Spatial and Temporal Responses to an Emissions Trading Scheme Covering Agriculture and Forestry: Simulation Results from New Zealand

We perform simulations using the integrated Land Use in Rural New Zealand (LURNZ) model to analyze the effect of various New Zealand emissions trading scheme (ETS) scenarios on land use, emissions and output in a temporally and spatially explicit manner. We compare the impact of afforestation to the...

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Bibliographic Details
Main Authors: Wei Zhang, William Power, Levente Timar, Suzi Kerr, Simon Anastasiadis, Alex Olssen
Format: Article
Language:English
Published: MDPI AG 2012-12-01
Series:Forests
Subjects:
land use
land-use change
LURNZ
greenhouse gas emissions
afforestation
forestry removals
New Zealand Emissions Trading Scheme
integrated modeling
agricultural production
Online Access:http://www.mdpi.com/1999-4907/3/4/1133
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spelling doaj-e8bcc1e686364a57ab48f9a5d8796afd2020-11-24T23:14:10ZengMDPI AGForests1999-49072012-12-01341133115610.3390/f3041133Spatial and Temporal Responses to an Emissions Trading Scheme Covering Agriculture and Forestry: Simulation Results from New ZealandWei ZhangWilliam PowerLevente TimarSuzi KerrSimon AnastasiadisAlex OlssenWe perform simulations using the integrated Land Use in Rural New Zealand (LURNZ) model to analyze the effect of various New Zealand emissions trading scheme (ETS) scenarios on land use, emissions and output in a temporally and spatially explicit manner. We compare the impact of afforestation to the impact of other land-use change on net greenhouse gas emissions and evaluate the importance of the forestry component of the ETS relative to the agricultural component. We find that the effect of including agriculture in the ETS is small relative to the effect of including forestry. We also examine the effect of land-use change on the time profile of net emissions from the forestry sector. Finally, we present projections of future agricultural output under various policy scenarios.http://www.mdpi.com/1999-4907/3/4/1133land useland-use changeLURNZgreenhouse gas emissionsafforestationforestry removalsNew Zealand Emissions Trading Schemeintegrated modelingagricultural production
collection DOAJ
language English
format Article
sources DOAJ
author Wei Zhang
William Power
Levente Timar
Suzi Kerr
Simon Anastasiadis
Alex Olssen
spellingShingle Wei Zhang
William Power
Levente Timar
Suzi Kerr
Simon Anastasiadis
Alex Olssen
Spatial and Temporal Responses to an Emissions Trading Scheme Covering Agriculture and Forestry: Simulation Results from New Zealand
Forests
land use
land-use change
LURNZ
greenhouse gas emissions
afforestation
forestry removals
New Zealand Emissions Trading Scheme
integrated modeling
agricultural production
author_facet Wei Zhang
William Power
Levente Timar
Suzi Kerr
Simon Anastasiadis
Alex Olssen
author_sort Wei Zhang
title Spatial and Temporal Responses to an Emissions Trading Scheme Covering Agriculture and Forestry: Simulation Results from New Zealand
title_short Spatial and Temporal Responses to an Emissions Trading Scheme Covering Agriculture and Forestry: Simulation Results from New Zealand
title_full Spatial and Temporal Responses to an Emissions Trading Scheme Covering Agriculture and Forestry: Simulation Results from New Zealand
title_fullStr Spatial and Temporal Responses to an Emissions Trading Scheme Covering Agriculture and Forestry: Simulation Results from New Zealand
title_full_unstemmed Spatial and Temporal Responses to an Emissions Trading Scheme Covering Agriculture and Forestry: Simulation Results from New Zealand
title_sort spatial and temporal responses to an emissions trading scheme covering agriculture and forestry: simulation results from new zealand
publisher MDPI AG
series Forests
issn 1999-4907
publishDate 2012-12-01
description We perform simulations using the integrated Land Use in Rural New Zealand (LURNZ) model to analyze the effect of various New Zealand emissions trading scheme (ETS) scenarios on land use, emissions and output in a temporally and spatially explicit manner. We compare the impact of afforestation to the impact of other land-use change on net greenhouse gas emissions and evaluate the importance of the forestry component of the ETS relative to the agricultural component. We find that the effect of including agriculture in the ETS is small relative to the effect of including forestry. We also examine the effect of land-use change on the time profile of net emissions from the forestry sector. Finally, we present projections of future agricultural output under various policy scenarios.
topic land use
land-use change
LURNZ
greenhouse gas emissions
afforestation
forestry removals
New Zealand Emissions Trading Scheme
integrated modeling
agricultural production
url http://www.mdpi.com/1999-4907/3/4/1133
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AT williampower spatialandtemporalresponsestoanemissionstradingschemecoveringagricultureandforestrysimulationresultsfromnewzealand
AT leventetimar spatialandtemporalresponsestoanemissionstradingschemecoveringagricultureandforestrysimulationresultsfromnewzealand
AT suzikerr spatialandtemporalresponsestoanemissionstradingschemecoveringagricultureandforestrysimulationresultsfromnewzealand
AT simonanastasiadis spatialandtemporalresponsestoanemissionstradingschemecoveringagricultureandforestrysimulationresultsfromnewzealand
AT alexolssen spatialandtemporalresponsestoanemissionstradingschemecoveringagricultureandforestrysimulationresultsfromnewzealand
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