Susan Page’s research while affiliated with University of Leicester and other places

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Publications (80)


Pelatihan Pembuatan Stik Ikan Berbasis Bahan Dasar Lokal di Ekosistem Gambut Desa Bahaur Hulu Permai, Kabupaten Pulang Pisau
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November 2024

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17 Reads

Pengabdian Kampus Jurnal Informasi Kegiatan Pengabdian Pada Masyarakat

Eti Dewi Nopembereni

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Rosana Elvince

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The aim of training activities in Bahaur Hulu Permai Village is an effort to improve the abilities and skills of people living in peat ecosystems, especially in coastal areas. Coastal areas not only have potential as fisheries resources, but also agriculture in a broad sense. The main income of coastal communities is marine fisheries and brackish water fisheries, if they are in a brackish water ecosystem. The potential for marine and river fisheries and land fisheries in Indonesia is very large. The problem is that people in coastal areas are still unable to manage natural potential into goods or products that have high economic benefits. The importance of increasing the abilities and skills of communities in coastal areas by conducting outreach, counseling and training in making fish-based food. One of the activities that can be improved is making fish sticks, in order to increase income for fishing families in particular, and coastal communities in general.

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Warming of Northern Peatlands Increases the Global Temperature Overshoot Challenge

October 2024

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95 Reads


Tropical peat composition may provide a negative feedback on fire occurrence and severity

August 2024

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188 Reads

Loss of peat through increased burning will have major impacts on the global carbon cycle. In a normal hydrological state, the risk of fire propagation is largely controlled by peat bulk density and moisture content. However, where humans have interfered with the moisture status of peat either via drainage, or indirectly via climate change, we hypothesise that its botanical composition will become important to flammability, such that peats from different latitudes might have different compositionally-driven susceptibility to ignition. We use pyrolysis combustion flow calorimetry to determine the temperature of maximum thermal decomposition (Tmax) of peats from different latitudes, and couple this to a botanical composition analysis. We find that tropical peat has higher Tmax than other regions, likely on account of its higher wood content which appears to convey a greater resistance to ignition. This resistance also increases with depth, which means that loss of surface peat in tropical regions may lead to a reduction in the subsequent ignitability of deeper peat layers as they are exposed, potentially resulting in a negative feedback on increased fire occurrence and severity.


Stand‐level stem CO2 efflux (EA) along the logging gradient from old‐growth (green) to moderately (twice logged; light brown) and heavily logged (four times logged; dark brown), with EA partitioned into maintenance (dotted) and growth (lines) respiration. There was no difference in stand‐level EA between logged and old‐growth plots (T‐test; P = 0.59). Error bars represent propagated SE of stand‐level EA (a). Mean tree‐level EA, with SE, along the logging gradient, whereby tree‐level EA was significantly higher in logged than old‐growth plots (Wilcoxon signed‐rank test; P = < 0.001, b). Stem surface area index (SAI) along the logging gradient with error bars that represent surface area index error, which was assigned as 10% based on the uncertainty in allometry based on Robertson et al. (2010). SAI was significantly higher in old‐growth than logged plots (T‐test; P = 0.03, c). Stand‐level stem carbon use efficiency (CUE), which was calculated as woody stem net primary productivity/(woody stem net primary productivity + stand‐level EA), along the logging gradient. Stem CUE was significantly higher in logged than old‐growth plots (T‐test; P = 0.039). Error bars represent propagated SE of stand‐level CUE (d). For plot codes, see Table 1.
Tree‐level stem CO2 efflux is higher in logged than old‐growth plots (P < 0.001). Tree‐level EA increases with increasing growth rate (P < 0.001); (a) and with tree diameter at 1.3 m height (DBH; P < 0.001); (b), as determined by a generalised linear model. Axes are shown with logarithmic scaling. Brown line represents logged plots (moderately logged–light brown triangles; heavily logged–dark brown squares) and green line represents old‐growth plots (green circles), with ±95% confidence intervals.
Partial least squares regression (PLS‐R) variable importance projection scores (a, c) and coefficients (b, d) for the variables that influence tree‐level stem CO2 efflux (EA) in logged (brown) and old‐growth (green) forest plots. Asterisk (*) indicates variables that were significant within the model as determined by Jack‐knifing (P < 0.05), solid outline represents coefficients from Component 1 (b, d) and dashed outline represents coefficients from Component 2 (b). Trait acronyms and abbreviations are as follows, whereby δ¹⁵N is foliar 15N isotope, Pm is foliar phosphorus content, lumen fraction is vessel lumen fraction, N. Vessels is number of vessels within wedge, DBH is stem diameter at 1.3 m height, δ¹³C is foliar 13C isotope, subplot BA is the basal area of trees in a 20 × 20 m subplot minus the basal area of the target tree (as a proxy for competition) and Npa is foliar nitrogen. Subscripts ‘pa’ and ‘m’ indicate units per leaf area (mg mm⁻²) and per leaf dry mass (mg g⁻¹), respectively. Further variable descriptions can be found in Supporting Information Table S1 and output in Table S2.
Linear model between stand‐level stem CO2 efflux (EA) and basal area (BA) by forest type (old‐growth, green; logged, brown) (R² = 0.51, P = 0.05) (a). Linear model between stand‐level EA and stem surface area index (SAI) by forest type (R² = 0.61, P = 0.026) (b). Stand‐level stem carbon use efficiency declines with increasing BA (c; R² = 0.53, P = 0.02). Stand‐level maintenance respiration increases with increasing stem SAI (d; R² = 0.59, P = 0.009). Error band represent 95% CI and old‐growth plots are represented by green circles, moderately logged plots by light brown triangles, and heavily logged plots by dark brown squares. For plot codes, see Table 1.
Stand‐level stem CO2 efflux declines with increasing soil magnesium and soil phosphorus (a; R² = 0.63, P = 0.02), and maintenance respiration declines with increasing soil calcium (b; R² = 0.73, P = 0.002). Explanatory variables are log‐transformed, x‐axes are shown with logarithmic scaling and error bands represent ±95% confidence interval. Old‐growth plots are represented by circles, moderately logged plots by triangles and heavily logged plots by squares. For plot codes, see Table 1.
From tree to plot: investigating stem CO2 efflux and its drivers along a logging gradient in Sabah, Malaysian Borneo

August 2024

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166 Reads

Stem respiration constitutes a substantial proportion of autotrophic respiration in forested ecosystems, but its drivers across different spatial scales and land‐use gradients remain poorly understood. This study quantifies and examines the impact of logging disturbance on stem CO2 efflux (EA) in Malaysian Borneo. EA was quantified at tree‐ and stand‐level in nine 1‐ha plots over a logging gradient from heavily logged to old‐growth using the static chamber method. Tree‐level results showed higher EA per unit stem area in logged vs old‐growth plots (37.0 ± 1.1 vs 26.92 ± 1.14 g C m⁻² month⁻¹). However, at stand‐level, there was no difference in EA between logged and old‐growth plots (6.7 ± 1.1 vs 6.0 ± 0.7 Mg C ha⁻¹ yr⁻¹) due to greater stem surface area in old‐growth plots. Allocation to growth respiration and carbon use efficiency was significantly higher in logged plots. Variation in EA at both tree‐ and stand‐level was driven by tree size, growth and differences in investment strategies between the forest types. These results reflect different resource allocation strategies and priorities, with a priority for growth in response to increased light availability in logged plots, while old‐growth plots prioritise maintenance and cell structure.


Pelatihan Pertanian Organik dan Pembuatan Eco-Ezyim Serta Biopestisida : Solusi Mengatasi Dampak Karhutla

July 2024

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20 Reads

Pengabdian Kampus Jurnal Informasi Kegiatan Pengabdian Pada Masyarakat

Kegiatan pengabdian kepada masyarakat dilaksanakan di Kelurahan Tumbang Tahai, Kecamatan Bukit Batu. Sasaran kegiatan pengabdian ini adalah kelompok tani yang menginginkan tentang pertanian organik, karena sebagian masyarakatnya berkeinginan terbentuknya kelompok pertanian organik. Tahapan pelaksanaan diawali dengan ceramah dan diskusi tentang pertanian organik, pelatihan pembuatan eco-enzim, pelatihan pembuatan biopestisida PGPR, dilanjutkan dengan pendampingan cara aplikasi pupuk organik kompos dan PGPR pada tanaman mentimun mitra. Hasil kegiatan pengabdian kepada masyarakatnya dapat terselenggara dengan lancar, mendapat respon positif dan mitra sangat antusias mengikuti kegiatan ini.




Exploring Spatial Patterns of Tropical Peatland Subsidence in Selangor, Malaysia Using the APSIS-DInSAR Technique

June 2024

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70 Reads

Tropical peatlands in Southeast Asia have experienced widespread subsidence due to forest clearance and drainage for agriculture, oil palm and pulp wood production, causing concerns about their function as a long-term carbon store. Peatland drainage leads to subsidence (lowering of peatland surface), an indicator of degraded peatlands, while stability/uplift indicates peatland accumulation and ecosystem health. We used the Advanced Pixel System using the Intermittent SBAS (ASPIS-DInSAR) technique with biophysical and geographical data to investigate the impact of peatland drainage and agriculture on spatial patterns of subsidence in Selangor, Malaysia. Results showed pronounced subsidence in areas subjected to drainage for agricultural and oil palm plantations, while stable areas were associated with intact forests. The most powerful predictors of subsidence rates were the distance from the drainage canal or peat boundary; however, other drivers such as soil properties and water table levels were also important. The maximum subsidence rate detected was lower than that documented by ground-based methods. Therefore, whilst the APSIS-DInSAR technique may underestimate absolute subsidence rates, it gives valuable information on the direction of motion and spatial variability of subsidence. The study confirms widespread and severe peatland degradation in Selangor, highlighting the value of DInSAR for identifying priority zones for restoration and emphasising the need for conservation and restoration efforts to preserve Selangor peatlands and prevent further environmental impacts.


Benefits of tropical peatland rewetting for subsidence reduction and forest regrowth: results from a large-scale restoration trial

May 2024

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106 Reads

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2 Citations

Drainage and deforestation of tropical peat swamp forests (PSF) in Southeast Asia cause carbon emissions and biodiversity loss of global concern. Restoration efforts to mitigate these impacts usually involve peatland rewetting by blocking canals. However, there have been no studies to date of the optimal rewetting approach that will reduce carbon emission whilst also promoting PSF regeneration. Here we present results of a large-scale restoration trial in Sumatra (Indonesia), monitored for 7.5 years. Water levels in a former plantation were raised over an area of 4800 ha by constructing 257 compacted peat dams in canals. We find peat surface subsidence rates in the rewetted restoration area and adjoining PSF to be halved where water tables were raised from ~ − 0.6 m to ~ − 0.3 m, demonstrating the success of rewetting in reducing carbon emission. A total of 57 native PSF tree species were found to spontaneously grow in the most rewetted conditions and in high densities, indicating that forest regrowth is underway. Based on our findings we propose that an effective PSF restoration strategy should follow stepwise rewetting to achieve substantial carbon emission reduction alongside unassisted regrowth of PSF, thereby enabling the peat, forest and canal vegetation to establish a new nature-based ecosystem balance.


Impacts of fire and prospects for recovery in a tropical peat forest ecosystem

April 2024

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140 Reads

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7 Citations

Proceedings of the National Academy of Sciences

Uncontrolled fires place considerable burdens on forest ecosystems, compromising our ability to meet conservation and restoration goals. A poor understanding of the impacts of fire on ecosystems and their biodiversity exacerbates this challenge, particularly in tropical regions where few studies have applied consistent analytical techniques to examine a broad range of ecological impacts over multiyear time frames. We compiled 16 y of data on ecosystem properties (17 variables) and biodiversity (21 variables) from a tropical peatland in Indonesia to assess fire impacts and infer the potential for recovery. Burned forest experienced altered structural and microclimatic conditions, resulting in a proliferation of nonforest vegetation and erosion of forest ecosystem properties and biodiversity. Compared to unburned forest, habitat structure, tree density, and canopy cover deteriorated by 58 to 98%, while declines in species diversity and abundance were most pronounced for trees, damselflies, and butterflies, particularly for forest specialist species. Tracking ecosystem property and biodiversity datasets over time revealed most to be sensitive to recurrent high-intensity fires within the wider landscape. These megafires immediately compromised water quality and tree reproductive phenology, crashing commercially valuable fish populations within 3 mo and driving a gradual decline in threatened vertebrates over 9 mo. Burned forest remained structurally compromised long after a burn event, but vegetation showed some signs of recovery over a 12-y period. Our findings demonstrate that, if left uncontrolled, fire may be a pervasive threat to the ecological functioning of tropical forests, underscoring the importance of fire prevention and long-term restoration efforts, as exemplified in Indonesia.


Citations (61)


... Researchers have conducted continuous investigations into the emissions. The research field, however, suffers from excessive fragmentation, including in the areas of ecology [9,[18][19][20], environmental protection [21][22][23][24], medicine [25][26][27], and forestry [28][29][30][31]. The existing comprehensive comments on emissions across different fields lack analysis of the most recent research findings. ...

Reference:

Recent Advancements in the Emission Characteristics of Forest Ground Smoldering Combustion
Peat fires and legacy toxic metal release: An integrative biogeochemical and ecohydrological conceptual framework
  • Citing Article
  • July 2024

Earth-Science Reviews

... Following rewetting, revegetation should be carried out with endemic local species to enhance biodiversity, rebuild the upper layer of peat soil with plant roots and litter, stabilize microclimates, and reduce fire risk (respondent 9) (Mishra et al. 2021). Canal blocking (Principle 2) has been shown to raise the water table and initiate the recovery of native peatland vegetation (Hooijer et al. 2024). Some previous revegetation efforts have not succeeded due to inadequate hydrological restoration leading to plant loss in peatland fires (respondent 8), or a limited understanding of peatland plant ecology (Mishra et al. 2021). ...

Benefits of tropical peatland rewetting for subsidence reduction and forest regrowth: results from a large-scale restoration trial

... Indonesian peat fires have important impacts on forest ecosystems (Harrison et al., 2024) and release large quantities of carbon dioxide and air pollutants to the atmosphere resulting in substantial economic damages (Kiely et al., 2021). Vegetation fires on peatland can burn down into the peat below the surface (Roulston et al., 2018) and emissions from peat burning dominate total fire emissions (Heil et al., 2007). ...

Impacts of fire and prospects for recovery in a tropical peat forest ecosystem
  • Citing Article
  • April 2024

Proceedings of the National Academy of Sciences

... Resistance factors and other data were input into the InVEST model (Table 7), employing the habitat quality module to measure the study region's habitat quality index, yielding a distribution range between 0 and 0.98. Based on the quantitative results and relevant literature references [52,53], the habitats in the study area were categorized into high-quality (0.76-0.98), medium-quality (0.43-0.75), and low-quality (0-0.42) habitats. ...

Tiger Habitat Quality Modelling in Malaysia with Sentinel-2 and InVEST

... The findings demonstrated that increasing forest canopy cover contributes to reducing temperature. The study by [107] further added to this concept by suggesting that cer-Land 2024, 13, 1377 13 of 21 tain crop-growth patterns can increase vegetation cover, thereby positively impacting soil moisture, ambient temperature, and peatland quality. The study also emphasized the potential of using native plant agroforestry practices for the improvement of degraded peatlands [107]. ...

Agroforestry as an approach to rehabilitating degraded tropical peatland in Indonesia

Journal of Degraded and Mining Lands Management

... Programmes that prioritise the development of technical skills in renewable energy, energy efficiency, and sustainable practices are especially beneficial. According to the Solar Energy Industries Association (SEIA), the U.S. solar business had more than 231,000 employees in 2020 [81]. Job opportunities are anticipated to continue to increase as the sector expands. ...

State of Knowledge on UK Agricultural Peatlands for Food Production and the Net Zero Transition

Sustainability

... The rate of carbon input and release from the peatland is significantly affected by the water level position [5,13,15,16,35]. A shallow water level position leads to the shorter residence time of plant litter or organic matter in an unsaturated zone that supports carbon accumulation. ...

Simulating carbon accumulation and loss in the central Congo peatlands
  • Citing Article
  • October 2023

Global Change Biology

... Peat extraction for electricity production and heating continues in a small number of northern European countries, while the mining of peat to provide growing media (e.g. potting composts sold globally) occurs mainly in Ireland and some Baltic states (Girkin et al., 2023). ...

The three-peat challenge: business as usual, responsible agriculture, and conservation and restoration as management trajectories in global peatlands

... Globally, peatland degradation and loss of 509,000 km 2 has led to the cumulative release of 80.8 Pg C, or an estimated 1.91 Gt CO 2 -equivalent (eq) yr 1 (Leifeld & Menichetti, 2018). As a result, disturbed peatlands are a net carbon source to the atmosphere, comprising ∼5% annual greenhouse gas emissions in 2020 (UNEP, 2022), with a release of 0.08-0.15 Pg C yr 1 in the 1990-2000 decade from cultivated peatlands (Carlson et al., 2017;Frolking et al., 2011;Qiu et al., 2021). ...

Global Peatlands Assessment – The State of the World’s Peatlands: Evidence for action toward the conservation, restoration, and sustainable management of peatlands

... Paleoecology provides an opportunity to enhance the standard reference ecosystem approach by offering restoration targets that are closely aligned with natural conditions, supported by empirical data. By utilizing proxy data of vegetation, such as pollen, phytoliths, and sedaDNA, retrieved from sedimentary archives, it becomes possible to characterize long-term changes in ecosystems and the response of communities to environmental and humaninduced factors (Mohamed Ramdzan et al., 2023;Loughlin et al., 2022). This extends the temporal scope beyond what is typically covered by observational studies, which rarely exceed 60 years (Grubb et al., 2020). ...

Insights for restoration: Reconstructing the drivers of long-term local fire events and vegetation turnover of a tropical peatland in Central Kalimantan

Palaeogeography Palaeoclimatology Palaeoecology