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2. Land-use change and propagule pressure promote plant invasions in tropical rainforest remnants

Author

Mark Hughes, Susannah Fleiss, Lindsay F. Banin, Bernadus Bala Ola, Azlin Bin Sailim, Joseph Tangah, Daniel S. Chapman, Emily Waddell, Ahmad Jelling, Kok Loong Yeong, and Jane K. Hill

Subjects
0106 biological sciences, Ecology, 010604 marine biology & hydrobiology, Propagule pressure, Geography, Planning and Development, Introduced species, Rainforest, Native plant, Biology, 010603 evolutionary biology, 01 natural sciences, Ecology and Environment, Invasive species, Disturbance (ecology), Forb, Nature and Landscape Conservation, Tropical rainforest
Abstract

Context Intact tropical rainforests are considered robust to plant invasions. However, land-use change alters the structure and species composition of native forest, opening up tropical landscapes to invasion. Yet, the relative roles of key drivers on tropical forest invasions remain little investigated. Objectives We examine factors affecting plant invasion of rainforest remnants in oil-palm dominated landscapes in Sabah, Malaysian Borneo. We hypothesized that invasion is greater in highly fragmented landscapes, and in disturbed forests with lower native plant diversity (cf. old-growth rainforests). Methods Native and exotic plants were surveyed in 47 plots at 17 forest sites, spanning gradients in landscape-scale fragmentation and local forest disturbance. Using partial least squares path-modelling, we examined correlations between invasion, fragmentation, forest disturbance, propagule pressure, soil characteristics and native plant community. Results We recorded 6999 individuals from 329 genera in total, including eight exotic species (0–51% of individuals/plot, median = 1.4%) representing shrubs, forbs, graminoids and climbers. The best model (R2 = 0.343) revealed that invasion was correlated with disturbance and propagule pressure (high prevalence of exotic species in plantation matrix), the latter being driven by greater fragmentation of the landscape. Our models revealed a significant negative correlation between invasion and native tree seedlings and sapling community diversity. Conclusions Increasing landscape fragmentation promotes exotic plant invasion in remnant tropical forests, especially if local disturbance is high. The association between exotic species invasion and young native tree community may have impacts for regeneration given that fragmentation is predicted to increase and so plant invasion may become more prevalent.

Published
2020
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3. Divergent tree seedling communities indicate different trajectories of change among rain forest remnants

Author

Jane K. Hill, Suzan Benedick, Gail Stride, Jenny A. Hodgson, Chris D. Thomas, Michael J. M. Senior, and Ahmad Jelling

Subjects
Tree (data structure), Geography, biology, Community composition, Seedling, Ecology, Beta diversity, Rainforest, Forest fragmentation, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Extinction debt
Published
2019
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4. Conservation set-asides improve carbon storage and support associated plant diversity in certified sustainable oil palm plantations

Author

Lindsay F. Banin, Ahmad Jelling, Suzan Benedick, Daniel S. Chapman, Azlin Bin Sailim, Bernadus Bala Ola, Susannah Fleiss, Kok Loong Yeong, Henry King, Jane K. Hill, Colin J. McClean, and Emily Waddell

Subjects
0106 biological sciences, Climate mitigation, Biodiversity, Certification, 010603 evolutionary biology, 01 natural sciences, Ecology and Environment, Tropical forest, Sustainable agriculture, Forest fragment, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, geography, geography.geographical_feature_category, Agroforestry, 010604 marine biology & hydrobiology, Sowing, Vegetation, Old-growth forest, Conservation set-aside, Agriculture and Soil Science, Sustainability, Oil palm, Environmental science, Palm
Abstract

Maintaining forest conservation set-asides is a key criterion of sustainability certification of many crops that drive tropical deforestation, but their value for carbon storage and associated biodiversity is unclear. We conducted vegetation measurements to examine the benefits of set-asides for aboveground carbon stocks (AGC) in certified oil palm plantations on Borneo, and whether their AGC is positively associated with plant diversity. The mean estimated AGC of live trees and palms ≥10 cm diameter in set-asides in certified oil palm plantations (52.8 Mg ha−1) was >1.5-times that of oil palm (30.3 Mg ha−1), with some plots supporting similar AGC to primary forest. For lowland Borneo, we estimate that the average AGC of oil palm plantations with 10% coverage of set-asides is up to 20% greater than the average AGC of oil palm plantations without set-asides, newly demonstrating carbon storage as a benefit of conservation set-asides. We found positive relationships between AGC and plant diversity, highlighting the carbon–biodiversity co-benefits of set-asides. However, set-asides had a lower density of tree seedlings than continuous primary forest, indicating potential suppression of future tree regeneration and AGC. Our findings support the application of zero-deforestation during agricultural development, to conserve areas of remaining forest with high AGC and high biodiversity. We recommend management practices that boost regeneration in existing set-asides (e.g. enrichment planting), which would be most effective in larger set-asides, and could substantially increase the AGC of agricultural landscapes without removing land from production, and help conserve forest-dependent biodiversity.

Published
2020

5. Conservation set-asides improve carbon storage and support associated plant diversity in certified sustainable oil palm plantations

Author

Susannah Fleiss, Emily H. Waddella, Bernadus Bala Ola, Lindsay F. Banin, Suzan Benedick, Azlin Bin Sailim, Daniel S. Chapman, Ahmad Jelling, Henry King, Colin J. McClean, Kok Loong Yeong, Jane K. Hill, Susannah Fleiss, Emily H. Waddella, Bernadus Bala Ola, Lindsay F. Banin, Suzan Benedick, Azlin Bin Sailim, Daniel S. Chapman, Ahmad Jelling, Henry King, Colin J. McClean, Kok Loong Yeong, and Jane K. Hill

Abstract

Maintaining forest conservation set-asides is a key criterion of sustainability certification of many crops that drive tropical deforestation, but their value for carbon storage and associated biodiversity is unclear. We conducted vegetation measurements to examine the benefits of set-asides for aboveground carbon stocks (AGC) in certified oil palm plantations on Borneo, and whether their AGC is positively associated with plant diversity. The mean estimated AGC of live trees and palms ≥10 cm diameter in set-asides in certified oil palm plantations (52.8 Mg ha−1) was >1.5-times that of oil palm (30.3 Mg ha−1), with some plots supporting similar AGC to primary forest. For lowland Borneo, we estimate that the average AGC of oil palm plantations with 10% coverage of set-asides is up to 20% greater than the average AGC of oil palm plantations without set-asides, newly demonstrating carbon storage as a benefit of conservation set-asides. We found positive relationships between AGC and plant diversity, highlighting the carbon–biodiversity co-benefits of set-asides. However, set-asides had a lower density of tree seedlings than continuous primary forest, indicating potential suppression of future tree regeneration and AGC. Our findings support the application of zero-deforestation during agricultural development, to conserve areas of remaining forest with high AGC and high biodiversity. We recommend management practices that boost regeneration in existing set-asides (e.g. enrichment planting), which would be most effective in larger set-asides, and could substantially increase the AGC of agricultural landscapes without removing land from production, and help conserve forest-dependent biodiversity.

Published
2020

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