N. Denis scite author profile

Abstract. Tropical peatlands play an important role in the global carbon cycle due to their immense carbon storage capacity. However, pristine peat swamp forests are vanishing due to deforestation and peatland degradation, especially in Southeast Asia. CO2 emissions associated with this land use change might not only come from the peat soil directly but also from peat-draining rivers. So far, though, this has been mere speculation, since there has been no data from undisturbed reference sites. We present the first combined assessment of lateral organic carbon fluxes and CO2 outgassing from an undisturbed tropical peat-draining river. Two sampling campaigns were undertaken on the Maludam River in Sarawak, Malaysia. The river catchment is covered by protected peat swamp forest, offering a unique opportunity to study a peat-draining river in its natural state, without any influence from tributaries with different characteristics. The two campaigns yielded consistent results. Dissolved organic carbon (DOC) concentrations ranged between 3222 and 6218 μmol L−1 and accounted for more than 99 % of the total organic carbon (TOC). Radiocarbon dating revealed that the riverine DOC was of recent origin, suggesting that it derives from the top soil layers and surface runoff. We observed strong oxygen depletion, implying high rates of organic matter decomposition and consequently CO2 production. The measured median pCO2 was 7795 and 8400 μatm during the first and second campaign, respectively. Overall, we found that only 32 ± 19 % of the carbon was exported by CO2 evasion, while the rest was exported by discharge. CO2 outgassing seemed to be moderated by the short water residence time. Since most Southeast Asian peatlands are located at the coast, this is probably an important limiting factor for CO2 outgassing from most of its peat-draining rivers.

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Lateral carbon fluxes and CO<sub>2</sub> outgassing from a tropical peat-draining river

Müller¹,

Warneke²,

Rixen³

et al. 2015

Preprint

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Abstract. Tropical peatlands play an important role in the global carbon cycle due to their immense carbon storage capacity. However, pristine peat swamp forests are vanishing due to deforestation and peatland degradation, especially in Southeast Asia. CO2 emissions associated with this land use change might not only come from the peat soil directly, but also from peat-draining rivers. So far, though, this has been mere speculation, since there was no data from undisturbed reference sites. We present the first combined assessment of lateral organic carbon fluxes and CO2 outgassing from an undisturbed tropical peat-draining river. Two sampling campaigns were undertaken on the Maludam river in Sarawak, Malaysia. The river catchment is covered by protected peat swamp forest, offering a unique opportunity to study a peat-draining river in its natural state, without any influence from tributaries with different characteristics. The two campaigns yielded consistent results. Dissolved organic carbon (DOC) concentrations ranged between 3222 and 6218 μmol L−1 and accounted for more than 99 % of the total organic carbon (TOC). Radiocarbon dating revealed that the riverine DOC was of recent origin, suggesting that it derives from the top soil layers and surface runoff. We observed strong oxygen depletion, implying high rates of organic matter decomposition and consequently CO2 production. The measured median pCO2 was 7795 and 8400 μatm during the two campaigns, respectively. Overall, we found that only 26 ± 15 % of the carbon was exported by CO2 evasion, while the rest was exported by discharge. CO2 outgassing seemed to be moderated by the short water residence time. Since most Southeast Asian peatlands are located at the coast, this is probably an important limiting factor for CO2 outgassing from most of its peat-draining rivers.

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Occupational Stress and Burnout among Staffs in Hospitals: A Systematic Review

Sayapathi¹,

Denis²,

Ting³

2020

TAKSAD

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Occupational stress and burnout among staff were appraised by carrying out a systematic review. There has been an increased prevalence of work-related stress and burnout worldwide. This occupational disorder brings a total of 19-30% among common working population. The increased prevalence of burnout was seen predominantly among the staff of healthcare. Around 25-75% of burnout was noted particularly among the physicians. Around 10% of occupational diseases constituted burnout. The stress levels are measured among the staff of different groups to battle stress and burnout by executing appropriate strategies and hence, their performances are improved to attain the anticipated results.The search was carried out from 3 major databases, i.e., PubMed, EBSCOhost: Academic Search Complete and ProQuest: Education Database for studies issued from 1 st January 2007 until 1 st December 2017 without language limits, but omitted dissertation and thesis, newspapers and magazines. Different research designs were comprised in this review. The studies were recognized and regained by two separate authors.There were eight papers that satisfied the necessities of this systematic review from 812 titles scanned initially. The healthcare workers in the hospital displayed mild stress in most of the studies. The main sources of stress among the staff were heavy workload and resource scarcity.Continuous stress exposure at workplace can cause burnout among healthcare workers. Stress and subsequently burnout may lead to various diseases. To alleviate their burnout effectively, the top management should focus on resources needed and to conduct regular assessment among the staff for burnout.

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N. Denis

Lateral carbon fluxes and CO<sub>2</sub> outgassing from a tropical peat-draining river

Lateral carbon fluxes and CO<sub>2</sub> outgassing from a tropical peat-draining river

Occupational Stress and Burnout among Staffs in Hospitals: A Systematic Review

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N. Denis

Lateral carbon fluxes and CO&lt;sub&gt;2&lt;/sub&gt; outgassing from a tropical peat-draining river

Lateral carbon fluxes and CO&lt;sub&gt;2&lt;/sub&gt; outgassing from a tropical peat-draining river

Occupational Stress and Burnout among Staffs in Hospitals: A Systematic Review

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Product

Resources

About

Lateral carbon fluxes and CO<sub>2</sub> outgassing from a tropical peat-draining river

Lateral carbon fluxes and CO<sub>2</sub> outgassing from a tropical peat-draining river