Effects of selective logging and application of phosphorus and nitrogen on fluxes of co2 ch4 and n2o in lowland tropical rainforests of Borneo


Citation

Mukai M., . and Imai Nobuo, . and Kitayama K., . and Mori Taiki, . and Yokoyama Daiki, . Effects of selective logging and application of phosphorus and nitrogen on fluxes of co2 ch4 and n2o in lowland tropical rainforests of Borneo. pp. 248-256. ISSN 0128-1283

Abstract

We compared fluxes of carbon dioxide (CO2) nitrous oxide (N2O) and methane (CH4) in a primary forest and a secondary forest that has experienced selective logging more than 14 years ago. Effects of phosphorus (P) and nitrogen (N) application were also reported. We observed lower CO2 fluxes in the logged forest (2.0-2.4 g carbon (C) m-2 day-1) than the primary forest (2.4-3.5 g C m-2 day-1). The lower fluxes were probably because root respiration and heterotrophic respiration were lower in the logged forest. Smaller amounts of microbial biomass C (840-985 and 589-641 g C g soil-1 in the primary and secondary forests respectively) and N (109-143 and 106-117 g N g soil-1) in the secondary forest than the primary forest suggested that there were less substrate inputs such as leaf and root litters soil organic matters and root exudates in the former which produced less microbial population with lower heterotrophic respiration. Application of P increased CO2 emission (from 2.0-2.7 to 2.2-3.5 g C m-2 day-1) and microbial biomass N (from 106-115 to 110-143 g N g soil-1) suggesting that the belowground ecosystems of both forests were limited by availability of P as reported in other tropical forests. Fluxes of CH4 showed no differences between forests or manipulation of nutrient because of the high variability of fluxes. Logging operation and nutrient application did not influence N2O fluxes. The invariable N2O fluxes occurred because water content was low during sampling and emission of N2O was restricted by water availability which might have masked the effects of logging or nutrient application on N2O emission.


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Abstract

We compared fluxes of carbon dioxide (CO2) nitrous oxide (N2O) and methane (CH4) in a primary forest and a secondary forest that has experienced selective logging more than 14 years ago. Effects of phosphorus (P) and nitrogen (N) application were also reported. We observed lower CO2 fluxes in the logged forest (2.0-2.4 g carbon (C) m-2 day-1) than the primary forest (2.4-3.5 g C m-2 day-1). The lower fluxes were probably because root respiration and heterotrophic respiration were lower in the logged forest. Smaller amounts of microbial biomass C (840-985 and 589-641 g C g soil-1 in the primary and secondary forests respectively) and N (109-143 and 106-117 g N g soil-1) in the secondary forest than the primary forest suggested that there were less substrate inputs such as leaf and root litters soil organic matters and root exudates in the former which produced less microbial population with lower heterotrophic respiration. Application of P increased CO2 emission (from 2.0-2.7 to 2.2-3.5 g C m-2 day-1) and microbial biomass N (from 106-115 to 110-143 g N g soil-1) suggesting that the belowground ecosystems of both forests were limited by availability of P as reported in other tropical forests. Fluxes of CH4 showed no differences between forests or manipulation of nutrient because of the high variability of fluxes. Logging operation and nutrient application did not influence N2O fluxes. The invariable N2O fluxes occurred because water content was low during sampling and emission of N2O was restricted by water availability which might have masked the effects of logging or nutrient application on N2O emission.

Additional Metadata

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Item Type: Article
AGROVOC Term: Primary forests
AGROVOC Term: Secondary forests
AGROVOC Term: Logging
AGROVOC Term: Nitrous oxide
AGROVOC Term: Carbon dioxide
AGROVOC Term: Methane
AGROVOC Term: Phosphorus
AGROVOC Term: Nitrogen
AGROVOC Term: emission
AGROVOC Term: Nutrient utilization
Geographical Term: Malaysia
Depositing User: Ms. Suzila Mohamad Kasim
Last Modified: 28 Apr 2025 03:29
URI: http://webagris.upm.edu.my/id/eprint/22927

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