Accounting for seedling performance from nursery to outplanting when reforesting degraded tropical peatlands
Reforestation is promoted to address the dual global climate and biodiversity crises. This is particularly relevant for carbon-rich, biodiverse tropical peatlands, for which active reforestation typically involves two post-germination stages: nursery rearing of seedlings, then outplanting. Yet, link...
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sg-ntu-dr.10356-1742782024-03-25T15:30:53Z Accounting for seedling performance from nursery to outplanting when reforesting degraded tropical peatlands Harrison, Mark E. Sintes, Pau Brugues Kusin, Kitso Katoppo, Daniel R. Marchant, Nicholas Morrogh-Bernard, Helen C. Nasir, Darmae Capilla, Bernat Ripoll Salahudin Suppan, Laura van Veen, F. J. Frank Smith, Stuart W. Asian School of the Environment Earth Observatory of Singapore Earth and Environmental Sciences Field planting Tropical peat-swamp forest Reforestation is promoted to address the dual global climate and biodiversity crises. This is particularly relevant for carbon-rich, biodiverse tropical peatlands, for which active reforestation typically involves two post-germination stages: nursery rearing of seedlings, then outplanting. Yet, linkages between these stages and cumulative seedling performance are rarely quantified during tropical peatland reforestation. By monitoring tree seedling survival and growth, we investigate factors influencing seedling performance (species identity, seedling source, treatments, and climate), whether nursery performance predicts outplanting performance, and calculate cumulative survival (nursery plus outplanting) in Sebangau National Park, Indonesian Borneo. Standardized survival at 2 years was higher in the nursery (mean 67% across 40 species) than outplanting (44% across 24 species). For nursery and outplanting, species identity was the main source of variation in survival and height growth. Seedling source, treatments, site condition, and precipitation had no significant impact on survival but did influence growth in some cases. Nursery survival did not predict outplanting survival, but nursery height did predict outplanting height. Across species, around a quarter of seedlings survived from nursery to outplanting over 4 years. Cumulative survival represents a more realistic basis for assessing the genetic and other resource costs of tropical peatland reforestation. Our two-phase approach identified outplanting as the greater bottleneck to cumulative seedling survivability. We argue that the nursery stage may be used to harden seedlings for degraded peatland conditions by selecting more relevant treatments (e.g. flooding) and screening for resilience to common disturbances (e.g. fire) to enhance outplanted, and thus cumulative, seedling survival. Ministry of Education (MOE) Published version Funding was provided by: The Orangutan Project, Arcus Foundation, Darwin Initiative, Save the Orangutan, Orangutan Land Trust, U.S. Fishand Wildlife Service Great Apes Conservation Fund, Ocean Parks Conservation Foundation Hong Kong, European Outdoor Con-servation Association, Rufford Small Grants For Nature, Taronga Zoo, European Association of Zoos and Aquaria, Fundacion Bio-parc and UKRI through the Global Challenges Research Fund (GCRF) grant number NE/T010401/1. S.W.S. was funded by the Singaporean Ministry of Education Academic Research Fund (MOE2018-T2-2-156). 2024-03-25T06:01:04Z 2024-03-25T06:01:04Z 2023 Journal Article Harrison, M. E., Sintes, P. B., Kusin, K., Katoppo, D. R., Marchant, N., Morrogh-Bernard, H. C., Nasir, D., Capilla, B. R., Salahudin, Suppan, L., van Veen, F. J. F. & Smith, S. W. (2023). Accounting for seedling performance from nursery to outplanting when reforesting degraded tropical peatlands. Restoration Ecology, 31(8), e13984-. https://dx.doi.org/10.1111/rec.13984 1061-2971 https://hdl.handle.net/10356/174278 10.1111/rec.13984 2-s2.0-85174235262 8 31 e13984 en MOE2018-T2-2-156 Restoration Ecology © 2023 The Authors. Restoration Ecology published by Wiley Periodicals LLC on behalf of Society for Ecological Restoration. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. application/pdf |
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Earth and Environmental Sciences Field planting Tropical peat-swamp forest |
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Earth and Environmental Sciences Field planting Tropical peat-swamp forest Harrison, Mark E. Sintes, Pau Brugues Kusin, Kitso Katoppo, Daniel R. Marchant, Nicholas Morrogh-Bernard, Helen C. Nasir, Darmae Capilla, Bernat Ripoll Salahudin Suppan, Laura van Veen, F. J. Frank Smith, Stuart W. Accounting for seedling performance from nursery to outplanting when reforesting degraded tropical peatlands |
| description |
Reforestation is promoted to address the dual global climate and biodiversity crises. This is particularly relevant for carbon-rich, biodiverse tropical peatlands, for which active reforestation typically involves two post-germination stages: nursery rearing of seedlings, then outplanting. Yet, linkages between these stages and cumulative seedling performance are rarely quantified during tropical peatland reforestation. By monitoring tree seedling survival and growth, we investigate factors influencing seedling performance (species identity, seedling source, treatments, and climate), whether nursery performance predicts outplanting performance, and calculate cumulative survival (nursery plus outplanting) in Sebangau National Park, Indonesian Borneo. Standardized survival at 2 years was higher in the nursery (mean 67% across 40 species) than outplanting (44% across 24 species). For nursery and outplanting, species identity was the main source of variation in survival and height growth. Seedling source, treatments, site condition, and precipitation had no significant impact on survival but did influence growth in some cases. Nursery survival did not predict outplanting survival, but nursery height did predict outplanting height. Across species, around a quarter of seedlings survived from nursery to outplanting over 4 years. Cumulative survival represents a more realistic basis for assessing the genetic and other resource costs of tropical peatland reforestation. Our two-phase approach identified outplanting as the greater bottleneck to cumulative seedling survivability. We argue that the nursery stage may be used to harden seedlings for degraded peatland conditions by selecting more relevant treatments (e.g. flooding) and screening for resilience to common disturbances (e.g. fire) to enhance outplanted, and thus cumulative, seedling survival. |
| author2 |
Asian School of the Environment |
| author_facet |
Asian School of the Environment Harrison, Mark E. Sintes, Pau Brugues Kusin, Kitso Katoppo, Daniel R. Marchant, Nicholas Morrogh-Bernard, Helen C. Nasir, Darmae Capilla, Bernat Ripoll Salahudin Suppan, Laura van Veen, F. J. Frank Smith, Stuart W. |
| format |
Article |
| author |
Harrison, Mark E. Sintes, Pau Brugues Kusin, Kitso Katoppo, Daniel R. Marchant, Nicholas Morrogh-Bernard, Helen C. Nasir, Darmae Capilla, Bernat Ripoll Salahudin Suppan, Laura van Veen, F. J. Frank Smith, Stuart W. |
| author_sort |
Harrison, Mark E. |
| title |
Accounting for seedling performance from nursery to outplanting when reforesting degraded tropical peatlands |
| title_short |
Accounting for seedling performance from nursery to outplanting when reforesting degraded tropical peatlands |
| title_full |
Accounting for seedling performance from nursery to outplanting when reforesting degraded tropical peatlands |
| title_fullStr |
Accounting for seedling performance from nursery to outplanting when reforesting degraded tropical peatlands |
| title_full_unstemmed |
Accounting for seedling performance from nursery to outplanting when reforesting degraded tropical peatlands |
| title_sort |
accounting for seedling performance from nursery to outplanting when reforesting degraded tropical peatlands |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/174278 |
| _version_ |
1795302144082968576 |