Assessing the Effects of Agricultural Change on Nitrogen Fluxes Using the Integrated Nitrogen CAtchment (INCA) Model

The INCA (Integrated Nitrogen CAtchment) model is a semi-distributed, dynamic nitrogen modelwhich simulates nitrogen fluxes in catchments. Sources of nitrogen can be atmospheric deposition, the terrestrialenvironment or direct discharges. The model can simulate nitrogen processes in six land use cla...

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Bibliographic Details
Main Authors: Rankinen, Katri, Lehtonen, Heikki, Granlund, Kirsti, Bärlund, Ilona
Format: Text
Language:unknown
Published: BYU ScholarsArchive 2004
Subjects:
agricultural policy scenarios
agricultural sector modelling
semi-distributed modelling
n leaching
northern river basin
Inca
Simojoki
Northern Finland
Online Access:https://scholarsarchive.byu.edu/iemssconference/2004/all/211
https://scholarsarchive.byu.edu/context/iemssconference/article/3559/viewcontent/rankasse.pdf
id ftbrighamyoung:oai:scholarsarchive.byu.edu:iemssconference-3559
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spelling ftbrighamyoung:oai:scholarsarchive.byu.edu:iemssconference-3559 2023-07-23T04:20:59+02:00 Assessing the Effects of Agricultural Change on Nitrogen Fluxes Using the Integrated Nitrogen CAtchment (INCA) Model Rankinen, Katri Lehtonen, Heikki Granlund, Kirsti Bärlund, Ilona 2004-07-01T07:00:00Z application/pdf https://scholarsarchive.byu.edu/iemssconference/2004/all/211 https://scholarsarchive.byu.edu/context/iemssconference/article/3559/viewcontent/rankasse.pdf unknown BYU ScholarsArchive https://scholarsarchive.byu.edu/iemssconference/2004/all/211 https://scholarsarchive.byu.edu/context/iemssconference/article/3559/viewcontent/rankasse.pdf International Congress on Environmental Modelling and Software agricultural policy scenarios agricultural sector modelling semi-distributed modelling n leaching northern river basin text 2004 ftbrighamyoung 2023-07-03T22:36:36Z The INCA (Integrated Nitrogen CAtchment) model is a semi-distributed, dynamic nitrogen modelwhich simulates nitrogen fluxes in catchments. Sources of nitrogen can be atmospheric deposition, the terrestrialenvironment or direct discharges. The model can simulate nitrogen processes in six land use classes.There are three components included; the hydrological model, the catchment nitrogen process model and theriver nitrogen process model. The aim of this study is to compare the effects of three different agriculturalpolicy scenarios on inorganic nitrogen flux to the sea from Finnish catchments. Target years of these scenariosare 2010 and 2020. The changes in agricultural production in different scenarios of agricultural policy areevaluated using the DREMFIA model (Dynamic Regional Model of Finnish Agriculture). DREMFIA is adynamic dis-equilibrium model based on an evolutionary scheme of technology diffusion which considersfarm investments, evolving farm size structure and technological change explicitly. In the first phase of thestudy the INCA model is applied to the Simojoki river basin in northern Finland, where main anthropogenicinfluences are agriculture, atmospheric deposition and forestry. At the Simojoki river basin agriculture ismainly animal husbandry and grass cultivation. The river Simojoki discharges to the Bothnian Bay. Thepredicted changes in agricultural production and land use at Simojoki river basin prove to have more effecton inorganic nitrogen flux to the sea than changes in forestry practices or atmospheric deposition. This resultstems from the specific location, ecosystem type and characteristics of farm land in Simojoki basin. Next theINCA model will be applied to a river basin in southern Finland, where the main land use form is agriculture. Text Northern Finland Brigham Young University (BYU): ScholarsArchive Inca ENVELOPE(-59.194,-59.194,-62.308,-62.308) Simojoki ENVELOPE(25.050,25.050,65.617,65.617)
institution Open Polar
collection Brigham Young University (BYU): ScholarsArchive
op_collection_id ftbrighamyoung
language unknown
topic agricultural policy scenarios
agricultural sector modelling
semi-distributed modelling
n leaching
northern river basin
spellingShingle agricultural policy scenarios
agricultural sector modelling
semi-distributed modelling
n leaching
northern river basin
Rankinen, Katri
Lehtonen, Heikki
Granlund, Kirsti
Bärlund, Ilona
Assessing the Effects of Agricultural Change on Nitrogen Fluxes Using the Integrated Nitrogen CAtchment (INCA) Model
topic_facet agricultural policy scenarios
agricultural sector modelling
semi-distributed modelling
n leaching
northern river basin
description The INCA (Integrated Nitrogen CAtchment) model is a semi-distributed, dynamic nitrogen modelwhich simulates nitrogen fluxes in catchments. Sources of nitrogen can be atmospheric deposition, the terrestrialenvironment or direct discharges. The model can simulate nitrogen processes in six land use classes.There are three components included; the hydrological model, the catchment nitrogen process model and theriver nitrogen process model. The aim of this study is to compare the effects of three different agriculturalpolicy scenarios on inorganic nitrogen flux to the sea from Finnish catchments. Target years of these scenariosare 2010 and 2020. The changes in agricultural production in different scenarios of agricultural policy areevaluated using the DREMFIA model (Dynamic Regional Model of Finnish Agriculture). DREMFIA is adynamic dis-equilibrium model based on an evolutionary scheme of technology diffusion which considersfarm investments, evolving farm size structure and technological change explicitly. In the first phase of thestudy the INCA model is applied to the Simojoki river basin in northern Finland, where main anthropogenicinfluences are agriculture, atmospheric deposition and forestry. At the Simojoki river basin agriculture ismainly animal husbandry and grass cultivation. The river Simojoki discharges to the Bothnian Bay. Thepredicted changes in agricultural production and land use at Simojoki river basin prove to have more effecton inorganic nitrogen flux to the sea than changes in forestry practices or atmospheric deposition. This resultstems from the specific location, ecosystem type and characteristics of farm land in Simojoki basin. Next theINCA model will be applied to a river basin in southern Finland, where the main land use form is agriculture.
format Text
author Rankinen, Katri
Lehtonen, Heikki
Granlund, Kirsti
Bärlund, Ilona
author_facet Rankinen, Katri
Lehtonen, Heikki
Granlund, Kirsti
Bärlund, Ilona
author_sort Rankinen, Katri
title Assessing the Effects of Agricultural Change on Nitrogen Fluxes Using the Integrated Nitrogen CAtchment (INCA) Model
title_short Assessing the Effects of Agricultural Change on Nitrogen Fluxes Using the Integrated Nitrogen CAtchment (INCA) Model
title_full Assessing the Effects of Agricultural Change on Nitrogen Fluxes Using the Integrated Nitrogen CAtchment (INCA) Model
title_fullStr Assessing the Effects of Agricultural Change on Nitrogen Fluxes Using the Integrated Nitrogen CAtchment (INCA) Model
title_full_unstemmed Assessing the Effects of Agricultural Change on Nitrogen Fluxes Using the Integrated Nitrogen CAtchment (INCA) Model
title_sort assessing the effects of agricultural change on nitrogen fluxes using the integrated nitrogen catchment (inca) model
publisher BYU ScholarsArchive
publishDate 2004
url https://scholarsarchive.byu.edu/iemssconference/2004/all/211
https://scholarsarchive.byu.edu/context/iemssconference/article/3559/viewcontent/rankasse.pdf
long_lat ENVELOPE(-59.194,-59.194,-62.308,-62.308)
ENVELOPE(25.050,25.050,65.617,65.617)
geographic Inca
Simojoki
geographic_facet Inca
Simojoki
genre Northern Finland
genre_facet Northern Finland
op_source International Congress on Environmental Modelling and Software
op_relation https://scholarsarchive.byu.edu/iemssconference/2004/all/211
https://scholarsarchive.byu.edu/context/iemssconference/article/3559/viewcontent/rankasse.pdf
_version_ 1772186022418841600

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