Spatial variations of nitrogen trace gas emissions from tropical mountain forests in Nyungwe, Rwanda

Spatial variations of nitrogen trace gas emissions from tropical mountain forests in Nyungwe, Rwanda

Globally, tropical forest soils represent the second largest source of N<sub>2</sub>O and NO. However, there is still considerable uncertainty on the spatial variability and soil properties controlling N trace gas emission. Therefore, we carried out an incubation experime...

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Main Authors: N. Gharahi Ghehi, C. Werner, L. Cizungu Ntaboba, J. J. Mbonigaba Muhinda, E. Van Ranst, K. Butterbach-Bahl, R. Kiese, P. Boeckx
Format: Article
Language:English
Published: Copernicus Publications 2012-04-01
Series:Biogeosciences
Online Access:http://www.biogeosciences.net/9/1451/2012/bg-9-1451-2012.pdf
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spelling doaj-8ad10fde35f748dbb5b02e1d97f4b7ab2020-11-24T23:37:25ZengCopernicus PublicationsBiogeosciences1726-41701726-41892012-04-01941451146310.5194/bg-9-1451-2012Spatial variations of nitrogen trace gas emissions from tropical mountain forests in Nyungwe, RwandaN. Gharahi GhehiC. WernerL. Cizungu NtabobaJ. J. Mbonigaba MuhindaE. Van RanstK. Butterbach-BahlR. KieseP. BoeckxGlobally, tropical forest soils represent the second largest source of N<sub>2</sub>O and NO. However, there is still considerable uncertainty on the spatial variability and soil properties controlling N trace gas emission. Therefore, we carried out an incubation experiment with soils from 31 locations in the Nyungwe tropical mountain forest in southwestern Rwanda. All soils were incubated at three different moisture levels (50, 70 and 90 % water filled pore space (WFPS)) at 17 °C. Nitrous oxide emission varied between 4.5 and 400 μg N m<sup>−2</sup> h<sup>−1</sup>, while NO emission varied from 6.6 to 265 μg N m<sup>−2</sup> h<sup>−1</sup>. Mean N<sub>2</sub>O emission at different moisture levels was 46.5 ± 11.1 (50 %WFPS), 71.7 ± 11.5 (70 %WFPS) and 98.8 ± 16.4 (90 %WFPS) μg N m<sup>−2</sup> h<sup>−1</sup>, while mean NO emission was 69.3 ± 9.3 (50 %WFPS), 47.1 ± 5.8 (70 %WFPS) and 36.1 ± 4.2 (90 %WFPS) μg N m<sup>−2</sup> h<sup>−1</sup>. The latter suggests that climate (i.e. dry vs. wet season) controls N<sub>2</sub>O and NO emissions. Positive correlations with soil carbon and nitrogen indicate a biological control over N<sub>2</sub>O and NO production. But interestingly N<sub>2</sub>O and NO emissions also showed a positive correlation with free iron and a negative correlation with soil pH (only N<sub>2</sub>O). The latter suggest that chemo-denitrification might, at least for N<sub>2</sub>O, be an important production pathway. In conclusion improved understanding and process based modeling of N trace gas emission from tropical forests will benefit from spatially explicit trace gas emission estimates linked to basic soil property data and differentiating between biological and chemical pathways for N trace gas formation.http://www.biogeosciences.net/9/1451/2012/bg-9-1451-2012.pdf
collection DOAJ
language English
format Article
sources DOAJ
author N. Gharahi Ghehi
C. Werner
L. Cizungu Ntaboba
J. J. Mbonigaba Muhinda
E. Van Ranst
K. Butterbach-Bahl
R. Kiese
P. Boeckx
spellingShingle N. Gharahi Ghehi
C. Werner
L. Cizungu Ntaboba
J. J. Mbonigaba Muhinda
E. Van Ranst
K. Butterbach-Bahl
R. Kiese
P. Boeckx
Spatial variations of nitrogen trace gas emissions from tropical mountain forests in Nyungwe, Rwanda
Biogeosciences
author_facet N. Gharahi Ghehi
C. Werner
L. Cizungu Ntaboba
J. J. Mbonigaba Muhinda
E. Van Ranst
K. Butterbach-Bahl
R. Kiese
P. Boeckx
author_sort N. Gharahi Ghehi
title Spatial variations of nitrogen trace gas emissions from tropical mountain forests in Nyungwe, Rwanda
title_short Spatial variations of nitrogen trace gas emissions from tropical mountain forests in Nyungwe, Rwanda
title_full Spatial variations of nitrogen trace gas emissions from tropical mountain forests in Nyungwe, Rwanda
title_fullStr Spatial variations of nitrogen trace gas emissions from tropical mountain forests in Nyungwe, Rwanda
title_full_unstemmed Spatial variations of nitrogen trace gas emissions from tropical mountain forests in Nyungwe, Rwanda
title_sort spatial variations of nitrogen trace gas emissions from tropical mountain forests in nyungwe, rwanda
publisher Copernicus Publications
series Biogeosciences
issn 1726-4170
1726-4189
publishDate 2012-04-01
description Globally, tropical forest soils represent the second largest source of N<sub>2</sub>O and NO. However, there is still considerable uncertainty on the spatial variability and soil properties controlling N trace gas emission. Therefore, we carried out an incubation experiment with soils from 31 locations in the Nyungwe tropical mountain forest in southwestern Rwanda. All soils were incubated at three different moisture levels (50, 70 and 90 % water filled pore space (WFPS)) at 17 °C. Nitrous oxide emission varied between 4.5 and 400 μg N m<sup>−2</sup> h<sup>−1</sup>, while NO emission varied from 6.6 to 265 μg N m<sup>−2</sup> h<sup>−1</sup>. Mean N<sub>2</sub>O emission at different moisture levels was 46.5 ± 11.1 (50 %WFPS), 71.7 ± 11.5 (70 %WFPS) and 98.8 ± 16.4 (90 %WFPS) μg N m<sup>−2</sup> h<sup>−1</sup>, while mean NO emission was 69.3 ± 9.3 (50 %WFPS), 47.1 ± 5.8 (70 %WFPS) and 36.1 ± 4.2 (90 %WFPS) μg N m<sup>−2</sup> h<sup>−1</sup>. The latter suggests that climate (i.e. dry vs. wet season) controls N<sub>2</sub>O and NO emissions. Positive correlations with soil carbon and nitrogen indicate a biological control over N<sub>2</sub>O and NO production. But interestingly N<sub>2</sub>O and NO emissions also showed a positive correlation with free iron and a negative correlation with soil pH (only N<sub>2</sub>O). The latter suggest that chemo-denitrification might, at least for N<sub>2</sub>O, be an important production pathway. In conclusion improved understanding and process based modeling of N trace gas emission from tropical forests will benefit from spatially explicit trace gas emission estimates linked to basic soil property data and differentiating between biological and chemical pathways for N trace gas formation.
url http://www.biogeosciences.net/9/1451/2012/bg-9-1451-2012.pdf
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