Nutrient cycling and plant nutrition in forest ecosystems
Nutrient cycling is essential for maintaining nutrient supply to forest plants and for enhancing forest productivity. Nutrient cycling is also strongly linked to greenhouse gas emissions and thus the global climate change. Nutrient cycling and plant nutrition can be severely affected by anthropogenic and natural disturbance regimes. This special issue will provide an avenue to publish recent progress on research on nutrient cycling and plant nutrition in forest ecosystems and how nutrient cycling and plant nutrition are affected by disturbance regimes such as harvesting, atmospheric deposition and climate change.
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Format: | Texto biblioteca |
Language: | eng |
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Basel (Switzerland) MDPI
(201
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Subjects: | forest ecosystems, nutrient cycling in ecosystems, plant nutrition, nutrient availability, climate change, greenhouse gases, atmospheric deposition, impact assessment, forest plantations, forest soils, |
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unfao:8498972021-05-05T06:52:06ZNutrient cycling and plant nutrition in forest ecosystems 1423211774421 Chang Scott X. (ed.) 1423211774423 Sun Xiangyang (ed.) textBasel (Switzerland) MDPI(2017)engNutrient cycling is essential for maintaining nutrient supply to forest plants and for enhancing forest productivity. Nutrient cycling is also strongly linked to greenhouse gas emissions and thus the global climate change. Nutrient cycling and plant nutrition can be severely affected by anthropogenic and natural disturbance regimes. This special issue will provide an avenue to publish recent progress on research on nutrient cycling and plant nutrition in forest ecosystems and how nutrient cycling and plant nutrition are affected by disturbance regimes such as harvesting, atmospheric deposition and climate change.Nutrient cycling is essential for maintaining nutrient supply to forest plants and for enhancing forest productivity. Nutrient cycling is also strongly linked to greenhouse gas emissions and thus the global climate change. Nutrient cycling and plant nutrition can be severely affected by anthropogenic and natural disturbance regimes. This special issue will provide an avenue to publish recent progress on research on nutrient cycling and plant nutrition in forest ecosystems and how nutrient cycling and plant nutrition are affected by disturbance regimes such as harvesting, atmospheric deposition and climate change.forest ecosystemsnutrient cycling in ecosystemsplant nutritionnutrient availabilityclimate changegreenhouse gasesatmospheric depositionimpact assessmentforest plantationsforest soilsURN:ISBN:978-3-03482-384-3 |
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David Lubin Memorial Library of FAO |
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forest ecosystems nutrient cycling in ecosystems plant nutrition nutrient availability climate change greenhouse gases atmospheric deposition impact assessment forest plantations forest soils forest ecosystems nutrient cycling in ecosystems plant nutrition nutrient availability climate change greenhouse gases atmospheric deposition impact assessment forest plantations forest soils |
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forest ecosystems nutrient cycling in ecosystems plant nutrition nutrient availability climate change greenhouse gases atmospheric deposition impact assessment forest plantations forest soils forest ecosystems nutrient cycling in ecosystems plant nutrition nutrient availability climate change greenhouse gases atmospheric deposition impact assessment forest plantations forest soils 1423211774421 Chang Scott X. (ed.) 1423211774423 Sun Xiangyang (ed.) Nutrient cycling and plant nutrition in forest ecosystems |
description |
Nutrient cycling is essential for maintaining nutrient supply to forest plants and for enhancing forest productivity. Nutrient cycling is also strongly linked to greenhouse gas emissions and thus the global climate change. Nutrient cycling and plant nutrition can be severely affected by anthropogenic and natural disturbance regimes. This special issue will provide an avenue to publish recent progress on research on nutrient cycling and plant nutrition in forest ecosystems and how nutrient cycling and plant nutrition are affected by disturbance regimes such as harvesting, atmospheric deposition and climate change. |
format |
Texto |
topic_facet |
forest ecosystems nutrient cycling in ecosystems plant nutrition nutrient availability climate change greenhouse gases atmospheric deposition impact assessment forest plantations forest soils |
author |
1423211774421 Chang Scott X. (ed.) 1423211774423 Sun Xiangyang (ed.) |
author_facet |
1423211774421 Chang Scott X. (ed.) 1423211774423 Sun Xiangyang (ed.) |
author_sort |
1423211774421 Chang Scott X. (ed.) |
title |
Nutrient cycling and plant nutrition in forest ecosystems |
title_short |
Nutrient cycling and plant nutrition in forest ecosystems |
title_full |
Nutrient cycling and plant nutrition in forest ecosystems |
title_fullStr |
Nutrient cycling and plant nutrition in forest ecosystems |
title_full_unstemmed |
Nutrient cycling and plant nutrition in forest ecosystems |
title_sort |
nutrient cycling and plant nutrition in forest ecosystems |
publisher |
Basel (Switzerland) MDPI |
publishDate |
(201 |
work_keys_str_mv |
AT 1423211774421changscottxed nutrientcyclingandplantnutritioninforestecosystems AT 1423211774423sunxiangyanged nutrientcyclingandplantnutritioninforestecosystems |
_version_ |
1768619537159159808 |