Land use strongly influences soil organic carbon and bacterial community export in runoff in tropical uplands
Rapid development and associated land‐use change have resulted in increased soil erosion and widespread land degradation in tropical ecosystems. Precipitation‐induced soil erosion causes the export of soil organic carbon (SOC) and the associated bacterial community affecting soil quality and functio...
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| Vydané v: | Land degradation & development Ročník 31; číslo 1; s. 118 - 132 |
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| Hlavní autori: | , , , , , , |
| Médium: | Journal Article |
| Jazyk: | English |
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Chichester
Wiley Subscription Services, Inc
15.01.2020
Wiley |
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| ISSN: | 1085-3278, 1099-145X |
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| Abstract | Rapid development and associated land‐use change have resulted in increased soil erosion and widespread land degradation in tropical ecosystems. Precipitation‐induced soil erosion causes the export of soil organic carbon (SOC) and the associated bacterial community affecting soil quality and functioning. We assessed the transfer of SOC and soil bacterial diversity and functions in surface water runoff from different land uses: Teak with and without understory (TW and TWO, respectively) and upland rice (UR) in a tropical, upland catchment during a simulated rain event. Total suspended sediment (TSS) concentration was higher in TWO (1.23 ± 0.21 g L−1) than in TW (0.37 ± 0.16 g L−1) and UR (0.44 ± 0.2 g L−1), whereas dissolved organic carbon (DOC) concentration was lower under TWO (3.8 ± 0.7 mg L−1) than under TW or UR (13.4 ± 7.5 and 9.57 ± 4.8 mg L−1, respectively). Runoff from TWO harboured the highest proportion of bacterial taxa common to soil (27% and 29.5%) as compared with TW (22.8% and 13%) and UR (17.3% and 7%) for both particle attached and free‐living fractions, respectively. Bacterial community export in surface runoff was driven by changes in DOC and TSS, suggesting that eroded soil particles simultaneously carry organic carbon and attached bacterial taxa in surface runoff. Consequently, the export of soil functional groups relating to organic carbon degradation and nitrogen cycle was higher under TWO than in TW or UR. Our results underline that teak plantations with unsustainable practices such as the removal of understory degrades soil functions and accelerates land degradation through soil erosion and surface runoff on the long term. |
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| AbstractList | Rapid development and associated land‐use change have resulted in increased soil erosion and widespread land degradation in tropical ecosystems. Precipitation‐induced soil erosion causes the export of soil organic carbon (SOC) and the associated bacterial community affecting soil quality and functioning. We assessed the transfer of SOC and soil bacterial diversity and functions in surface water runoff from different land uses: Teak with and without understory (TW and TWO, respectively) and upland rice (UR) in a tropical, upland catchment during a simulated rain event. Total suspended sediment (TSS) concentration was higher in TWO (1.23 ± 0.21 g L−1) than in TW (0.37 ± 0.16 g L−1) and UR (0.44 ± 0.2 g L−1), whereas dissolved organic carbon (DOC) concentration was lower under TWO (3.8 ± 0.7 mg L−1) than under TW or UR (13.4 ± 7.5 and 9.57 ± 4.8 mg L−1, respectively). Runoff from TWO harboured the highest proportion of bacterial taxa common to soil (27% and 29.5%) as compared with TW (22.8% and 13%) and UR (17.3% and 7%) for both particle attached and free‐living fractions, respectively. Bacterial community export in surface runoff was driven by changes in DOC and TSS, suggesting that eroded soil particles simultaneously carry organic carbon and attached bacterial taxa in surface runoff. Consequently, the export of soil functional groups relating to organic carbon degradation and nitrogen cycle was higher under TWO than in TW or UR. Our results underline that teak plantations with unsustainable practices such as the removal of understory degrades soil functions and accelerates land degradation through soil erosion and surface runoff on the long term. Rapid development and associated land‐use change have resulted in increased soil erosion and widespread land degradation in tropical ecosystems. Precipitation‐induced soil erosion causes the export of soil organic carbon (SOC) and the associated bacterial community affecting soil quality and functioning. We assessed the transfer of SOC and soil bacterial diversity and functions in surface water runoff from different land uses: Teak with and without understory (TW and TWO, respectively) and upland rice (UR) in a tropical, upland catchment during a simulated rain event. Total suspended sediment (TSS) concentration was higher in TWO (1.23 ± 0.21 g L −1 ) than in TW (0.37 ± 0.16 g L −1 ) and UR (0.44 ± 0.2 g L −1 ), whereas dissolved organic carbon (DOC) concentration was lower under TWO (3.8 ± 0.7 mg L −1 ) than under TW or UR (13.4 ± 7.5 and 9.57 ± 4.8 mg L −1 , respectively). Runoff from TWO harboured the highest proportion of bacterial taxa common to soil (27% and 29.5%) as compared with TW (22.8% and 13%) and UR (17.3% and 7%) for both particle attached and free‐living fractions, respectively. Bacterial community export in surface runoff was driven by changes in DOC and TSS, suggesting that eroded soil particles simultaneously carry organic carbon and attached bacterial taxa in surface runoff. Consequently, the export of soil functional groups relating to organic carbon degradation and nitrogen cycle was higher under TWO than in TW or UR. Our results underline that teak plantations with unsustainable practices such as the removal of understory degrades soil functions and accelerates land degradation through soil erosion and surface runoff on the long term. Rapid development and associated land-use change have resulted in increased soil erosion and widespread land degradation in tropical ecosystems. Precipitation-induced soil erosion causes the export of soil organic carbon (SOC) and the associated bacterial community affecting soil quality and functioning. We assessed the transfer of SOC and soil bacterial diversity and functions in surface water runoff from different land uses: Teak with and without understory (TW and TWO, respectively) and upland rice (UR) in a tropical, upland catchment during a simulated rain event. Total suspended sediment (TSS) concentration was higher in TWO (1.23 +/- 0.21 g L-1) than in TW (0.37 +/- 0.16 g L-1) and UR (0.44 +/- 0.2 g L-1), whereas dissolved organic carbon (DOC) concentration was lower under TWO (3.8 +/- 0.7 mg L-1) than under TW or UR (13.4 +/- 7.5 and 9.57 +/- 4.8 mg L-1, respectively). Runoff from TWO harboured the highest proportion of bacterial taxa common to soil (27% and 29.5%) as compared with TW (22.8% and 13%) and UR (17.3% and 7%) for both particle attached and free-living fractions, respectively. Bacterial community export in surface runoff was driven by changes in DOC and TSS, suggesting that eroded soil particles simultaneously carry organic carbon and attached bacterial taxa in surface runoff. Consequently, the export of soil functional groups relating to organic carbon degradation and nitrogen cycle was higher under TWO than in TW or UR. Our results underline that teak plantations with unsustainable practices such as the removal of understory degrades soil functions and accelerates land degradation through soil erosion and surface runoff on the long term. Rapid development and associated land‐use change have resulted in increased soil erosion and widespread land degradation in tropical ecosystems. Precipitation‐induced soil erosion causes the export of soil organic carbon (SOC) and the associated bacterial community affecting soil quality and functioning. We assessed the transfer of SOC and soil bacterial diversity and functions in surface water runoff from different land uses: Teak with and without understory (TW and TWO, respectively) and upland rice (UR) in a tropical, upland catchment during a simulated rain event. Total suspended sediment (TSS) concentration was higher in TWO (1.23 ± 0.21 g L⁻¹) than in TW (0.37 ± 0.16 g L⁻¹) and UR (0.44 ± 0.2 g L⁻¹), whereas dissolved organic carbon (DOC) concentration was lower under TWO (3.8 ± 0.7 mg L⁻¹) than under TW or UR (13.4 ± 7.5 and 9.57 ± 4.8 mg L⁻¹, respectively). Runoff from TWO harboured the highest proportion of bacterial taxa common to soil (27% and 29.5%) as compared with TW (22.8% and 13%) and UR (17.3% and 7%) for both particle attached and free‐living fractions, respectively. Bacterial community export in surface runoff was driven by changes in DOC and TSS, suggesting that eroded soil particles simultaneously carry organic carbon and attached bacterial taxa in surface runoff. Consequently, the export of soil functional groups relating to organic carbon degradation and nitrogen cycle was higher under TWO than in TW or UR. Our results underline that teak plantations with unsustainable practices such as the removal of understory degrades soil functions and accelerates land degradation through soil erosion and surface runoff on the long term. Rapid development and associated land‐use change have resulted in increased soil erosion and widespread land degradation in tropical ecosystems. Precipitation‐induced soil erosion causes the export of soil organic carbon (SOC) and the associated bacterial community affecting soil quality and functioning. We assessed the transfer of SOC and soil bacterial diversity and functions in surface water runoff from different land uses: Teak with and without understory (TW and TWO, respectively) and upland rice (UR) in a tropical, upland catchment during a simulated rain event. Total suspended sediment (TSS) concentration was higher in TWO (1.23 ± 0.21 g L−1) than in TW (0.37 ± 0.16 g L−1) and UR (0.44 ± 0.2 g L−1), whereas dissolved organic carbon (DOC) concentration was lower under TWO (3.8 ± 0.7 mg L−1) than under TW or UR (13.4 ± 7.5 and 9.57 ± 4.8 mg L−1, respectively). Runoff from TWO harboured the highest proportion of bacterial taxa common to soil (27% and 29.5%) as compared with TW (22.8% and 13%) and UR (17.3% and 7%) for both particle attached and free‐living fractions, respectively. Bacterial community export in surface runoff was driven by changes in DOC and TSS, suggesting that eroded soil particles simultaneously carry organic carbon and attached bacterial taxa in surface runoff. Consequently, the export of soil functional groups relating to organic carbon degradation and nitrogen cycle was higher under TWO than in TW or UR. Our results underline that teak plantations with unsustainable practices such as the removal of understory degrades soil functions and accelerates land degradation through soil erosion and surface runoff on the long term. |
| Author | Latsachack, Keooudone Janeau, Jean Louis Le, Huong T. Huon, Sylvain Pommier, Thomas Rochelle‐Newall, Emma Ribolzi, Olivier |
| Author_xml | – sequence: 1 givenname: Huong T. surname: Le fullname: Le, Huong T. organization: iEES‐Paris (Sorbonne Université, UPEC, IRD, CNRS, INRA) – sequence: 2 givenname: Emma orcidid: 0000-0003-0951-8650 surname: Rochelle‐Newall fullname: Rochelle‐Newall, Emma organization: iEES‐Paris (Sorbonne Université, UPEC, IRD, CNRS, INRA) – sequence: 3 givenname: Olivier surname: Ribolzi fullname: Ribolzi, Olivier organization: Université de Toulouse, IRD, CNRS, UPS – sequence: 4 givenname: Jean Louis surname: Janeau fullname: Janeau, Jean Louis organization: Institute of Ecology and Environmental Sciences – Paris (iEES‐Paris) – sequence: 5 givenname: Sylvain surname: Huon fullname: Huon, Sylvain organization: iEES‐Paris (Sorbonne Université, UPEC, IRD, CNRS, INRA) – sequence: 6 givenname: Keooudone surname: Latsachack fullname: Latsachack, Keooudone organization: IRD, Ban Sisangvone – sequence: 7 givenname: Thomas orcidid: 0000-0003-2986-5326 surname: Pommier fullname: Pommier, Thomas email: thomas.pommier@univ‐lyon1.fr organization: Université de Lyon |
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| Keywords | bacterial function land degradation unsustainable land use rain simulation soil erosion |
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| SubjectTerms | Bacteria bacterial communities bacterial function Biodegradation biodiversity Carbon Carbon cycle Dissolved organic carbon ecosystems Environmental Sciences eroded soils Erosion mechanisms Exports Functional groups highlands Land degradation Land use land use change Life Sciences losses from soil Nitrogen cycle plantations Quality assessment rain simulation rainfall simulation rice Runoff soil bacteria Soil degradation Soil erosion Soil microorganisms soil organic carbon Soil quality Soils Surface runoff Surface water suspended sediment Suspended sediments Tectona grandis Understory unsustainable land use watersheds |
| Title | Land use strongly influences soil organic carbon and bacterial community export in runoff in tropical uplands |
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