Your search keyword '"Ewers A"' showing total 10 results

1. The impact of logging on vertical canopy structure across a gradient of tropical forest degradation intensity in Borneo.

Author

Milodowski, David T., Coomes, David A., Swinfield, Tom, Jucker, Tommaso, Riutta, Terhi, Malhi, Yadvinder, Svátek, Martin, Kvasnica, Jakub, Burslem, David F. R. P., Ewers, Robert M., Teh, Yit Arn, and Williams, Mathew

Subjects

TROPICAL forests, FOREST degradation, LOGGING, FOREST monitoring, FOREST surveys, AIRBORNE lasers

Abstract

Forest degradation through logging is pervasive throughout the world's tropical forests, leading to changes in the three‐dimensional canopy structure that have profound consequences for wildlife, microclimate and ecosystem functioning. Quantifying these structural changes is fundamental to understanding the impact of degradation, but is challenging in dense, structurally complex forest canopies.We exploited discrete‐return airborne LiDAR surveys across a gradient of logging intensity in Sabah, Malaysian Borneo, and assessed how selective logging had affected canopy structure (Plant Area Index, PAI, and its vertical distribution within the canopy).LiDAR products compared well to independent, analogue models of canopy structure produced from detailed ground‐based inventories undertaken in forest plots, demonstrating the potential for airborne LiDAR to quantify the structural impacts of forest degradation at landscape scale, even in some of the world's tallest and most structurally complex tropical forests.Plant Area Index estimates across the plot network exhibited a strong linear relationship with stem basal area (R2 = 0.95). After at least 11–14 years of recovery, PAI was ~28% lower in moderately logged plots and ~52% lower in heavily logged plots than that in old‐growth forest plots. These reductions in PAI were associated with near‐complete lack of trees >30‐m tall, which had not been fully compensated for by increasing plant area lower in the canopy. This structural change drives a marked reduction in the diversity of canopy environments, with the deep, dark understorey conditions characteristic of old‐growth forests far less prevalent in logged sites. Full canopy recovery is likely to take decades.Synthesis and applications. Effective management and restoration of tropical forests requires detailed monitoring of the forest and its environment. We demonstrate that airborne LiDAR can effectively map the canopy architecture of the complex tropical forests of Borneo, capturing the three‐dimensional impact of degradation on canopy structure at landscape scales, therefore facilitating efforts to restore and conserve these ecosystems. [ABSTRACT FROM AUTHOR]

Published

2021

2. SAFE Acoustics: An open‐source, real‐time eco‐acoustic monitoring network in the tropical rainforests of Borneo.

Author

Sethi, Sarab S., Ewers, Robert M., Jones, Nick S., Signorelli, Aaron, Picinali, Lorenzo, Orme, Christopher David L., and Zamora‐Gutierrez, Veronica

Subjects

RAIN forests, ENVIRONMENTAL monitoring, ACOUSTICS, APPLIED ecology, POPULATION ecology

Abstract

Automated monitoring approaches offer an avenue to unlocking large‐scale insight into how ecosystems respond to human pressures. However, since data collection and data analyses are often treated independently, there are currently no open‐source examples of end‐to‐end, real‐time ecological monitoring networks.Here, we present the complete implementation of an autonomous acoustic monitoring network deployed in the tropical rainforests of Borneo. Real‐time audio is uploaded remotely from the field, indexed by a central database, and delivered via an API to a public‐facing website.We provide the open‐source code and design of our monitoring devices, the central web2py database, and the ReactJS website. Furthermore, we demonstrate an extension of this infrastructure to deliver real‐time analyses of the eco‐acoustic data.By detailing a fully functional, open source, and extensively tested design, our work will accelerate the rate at which fully autonomous monitoring networks mature from technological curiosities, and towards genuinely impactful tools in ecology. [ABSTRACT FROM AUTHOR]

Published

2020

3. Imaging spectroscopy reveals the effects of topography and logging on the leaf chemistry of tropical forest canopy trees.

Author

Swinfield, Tom, Both, Sabine, Riutta, Terhi, Bongalov, Boris, Elias, Dafydd, Majalap‐Lee, Noreen, Ostle, Nicholas, Svátek, Martin, Kvasnica, Jakub, Milodowski, David, Jucker, Tommaso, Ewers, Robert M., Zhang, Yi, Johnson, David, Teh, Yit Arn, Burslem, David F. R. P., Malhi, Yadvinder, and Coomes, David

Subjects

TROPICAL forests, FOREST canopies, SPECTRAL imaging, TOPOGRAPHY, CHEMISTRY, DEAD trees, AIRBORNE-based remote sensing

Abstract

Logging, pervasive across the lowland tropics, affects millions of hectares of forest, yet its influence on nutrient cycling remains poorly understood. One hypothesis is that logging influences phosphorus (P) cycling, because this scarce nutrient is removed in extracted timber and eroded soil, leading to shifts in ecosystem functioning and community composition. However, testing this is challenging because P varies within landscapes as a function of geology, topography and climate. Superimposed upon these trends are compositional changes in logged forests, with species with more acquisitive traits, characterized by higher foliar P concentrations, more dominant. It is difficult to resolve these patterns using traditional field approaches alone. Here, we use airborne light detection and ranging‐guided hyperspectral imagery to map foliar nutrient (i.e. P, nitrogen [N]) concentrations, calibrated using field measured traits, over 400 km2 of northeastern Borneo, including a landscape‐level disturbance gradient spanning old‐growth to repeatedly logged forests. The maps reveal that canopy foliar P and N concentrations decrease with elevation. These relationships were not identified using traditional field measurements of leaf and soil nutrients. After controlling for topography, canopy foliar nutrient concentrations were lower in logged forest than in old‐growth areas, reflecting decreased nutrient availability. However, foliar nutrient concentrations and specific leaf area were greatest in relatively short patches in logged areas, reflecting a shift in composition to pioneer species with acquisitive traits. N:P ratio increased in logged forest, suggesting reduced soil P availability through disturbance. Through the first landscape scale assessment of how functional leaf traits change in response to logging, we find that differences from old‐growth forest become more pronounced as logged forests increase in stature over time, suggesting exacerbated phosphorus limitation as forests recover. [ABSTRACT FROM AUTHOR]

Published

2020

4. Shifts in the demographics and behavior of bearded pigs (Sus barbatus) across a land‐use gradient.

Author

Davison, Charles W., Chapman, Philip M., Wearn, Oliver R., Bernard, Henry, and Ewers, Robert M.

Subjects

SECONDARY forests, FOREST degradation, KEYSTONE species, OIL palm, SWINE

Abstract

Beyond broad‐scale investigations of species diversity and abundance, there is little information on how land conversion in the tropics is affecting the behavior and demographics of surviving species. To fill these knowledge gaps, we explored the effects of land‐use change on the ecologically important and threatened bearded pig (Sus barbatus) over seven years in Borneo. Random placement of camera traps across a land‐use gradient of primary forest, logged forest, and oil palm plantations (32,542 trap nights) resulted in 2,303 independent capture events. Land‐use was associated with changes in the age structure and activity patterns of photographed individuals, alongside large changes in abundance shown previously. The proportion of adults recorded declined from 92% in primary forests to 76% in logged forests, and 67% in plantations, likely indicating increased fecundity in secondary forests. Activity level (capture rate) did not vary, but activity patterns changed markedly, from diurnal in primary forests, crepuscular in logged forests, to nocturnal in plantations. These changes corresponded with avoidance of diurnal human activity and may also protect bearded pigs from increased thermal stress in warmer degraded forests. The percentage of adult captures that were groups rather than individuals increased five‐fold from primary forests (4%) to logged forests (20%), possibly due to increased mating or in response to perceived threats from indirect human disturbance. We recommend further investigation of the demographic and behavioral effects of land‐use change on keystone species as altered population structure, activity patterns, and social behavior may have knock‐on effects for entire ecosystems. [ABSTRACT FROM AUTHOR]

Published

2019

5. Land‐use change alters the mechanisms assembling rainforest mammal communities in Borneo.

Author

Wearn, Oliver R., Carbone, Chris, Rowcliffe, J. Marcus, Pfeifer, Marion, Bernard, Henry, Ewers, Robert M., and Rodriguez‐Cabal, Mariano

Subjects

LAND use, RAIN forests, MAMMALS, OIL palm

Abstract

The assembly of species communities at local scales is thought to be driven by environmental filtering, species interactions and spatial processes such as dispersal limitation. Little is known about how the relative balance of these drivers of community assembly changes along environmental gradients, especially man‐made environmental gradients associated with land‐use change.Using concurrent camera‐ and live‐trapping, we investigated the local‐scale assembly of mammal communities along a gradient of land‐use intensity (old‐growth forest, logged forest and oil palm plantations) in Borneo. We hypothesised that increasing land‐use intensity would lead to an increasing dominance of environmental control over spatial processes in community assembly. Additionally, we hypothesised that competitive interactions among species might reduce in concert with declines in α‐diversity (previously documented) along the land‐use gradient.To test our first hypothesis, we partitioned community variance into the fractions explained by environmental and spatial variables. To test our second hypothesis, we used probabilistic models of expected species co‐occurrence patterns, in particular focussing on the prevalence of spatial avoidance between species. Spatial avoidance might indicate competition, but might also be due to divergent habitat preferences.We found patterns that are consistent with a shift in the fundamental mechanics governing local community assembly. In support of our first hypothesis, the importance of spatial processes (dispersal limitation and fine‐scale patterns of home‐ranging) appeared to decrease from low to high intensity land‐uses, whilst environmental control increased in importance (in particular due to fine‐scale habitat structure). Support for our second hypothesis was weak: whilst we found that the prevalence of spatial avoidance decreased along the land‐use gradient, in particular between congeneric species pairs most likely to be in competition, few instances of spatial avoidance were detected in any land‐use, and most were likely due to divergent habitat preferences.The widespread changes in land‐use occurring in the tropics might be altering not just the biodiversity found in landscapes, but also the fundamental mechanics governing the local assembly of communities. A better understanding of these mechanics, for a range of taxa, could underpin more effective conservation and management of threatened tropical landscapes. Mammal community variation explained by environmental and spatial variables across a tropical land‐use gradient. [ABSTRACT FROM AUTHOR]

Published

2019

6. Multi-stemming enhances tree survival and growth in Borneo's logged forests.

Author

Kvasnica, Jakub, Matula, Radim, Rejžek, Martin, Ewers, Robert M., Riutta, Terhi, Turner, Edgar C., Nilus, Reuben, and Svátek, Martin

Subjects

LOGGING, TREE growth, FOREST dynamics, FOREST surveys, RAIN forests

Abstract

• Multi-stemmed architecture enhanced tree persistence after logging in Borneo's forests. • In recovering forests, multi-stemmed trees suffered lower mortality than single-stemmed. • Multi-stemmed trees exhibited faster growth than single-stemmed. • Difference in growth between multi- and single-stemmed trees increased with increasing logging disturbance. Multi-stemmed architecture is a common but overlooked tree growth form in tropical rainforests. Although multi-stemming is thought to be a key trait for tree persistence after disturbance, the role of multi-stemmed trees in post-disturbance demographic processes has been largely unexplored in logged rainforests. Here, we used decade-long measurements on nearly 14,000 tree stems to study post-logging growth and survival along a logging disturbance gradient in Malaysian Borneo. We found that multi-stemming enhanced tree persistence after logging. Along the entire disturbance gradient, multi-stemmed trees suffered significantly lower mortality than single-stemmed trees, and survival strongly increased with the number of stems. Small to medium-sized trees with multiple stems showed greater growth than similar-sized single-stemmed trees, with the difference increasing as the disturbance increased. Our findings demonstrate the significance of multi-stemmed architecture after logging in Borneo's rainforests and highlight the need to consider the multi-stemmed growth form in forest inventories and models of post-disturbance forest dynamics. [ABSTRACT FROM AUTHOR]

Published

2023

7. Movement Behavior of Native and Invasive Small Mammals Shows Logging May Facilitate Invasion in a Tropical Rain Forest.

Author

Loveridge, Robin, Wearn, Oliver R., Vieira, Marcus, Bernard, Henry, and Ewers, Robert M.

Subjects

ANIMAL ecology, MAMMAL behavior, SELECTIVE logging, RAIN forests, INTRODUCED species, ECOLOGICAL niche, RATTUS rattus

Abstract

Invasive species pose one of the greatest threats to biodiversity. This study investigates the extent to which human disturbance to natural ecosystems facilitates the spread of non-native species, focusing on a small mammal community in selectively logged rain forest, Sabah, Borneo. The microhabitat preferences of the invasive Rattus rattus and three native species of small mammal were examined in three-dimensional space by combining the spool-and-line technique with a novel method for quantifying fine-scale habitat selection. These methods allowed the detection of significant differences for each species between the microhabitats used compared with alternative, available microhabitats that were avoided. Rattus rattus showed the greatest preference for heavily disturbed habitats, and in contrast to two native small mammals of the genus Maxomys, R. rattus showed high levels of arboreal behavior, frequently leaving the forest floor and traveling through the understory and midstory forest strata. This behavior may enable R. rattus to effectively utilize the complex three-dimensional space of the lower strata in degraded forests, which is characterized by dense vegetation. The behavioral flexibility of R. rattus to operate in both terrestrial and arboreal space may facilitate its invasion into degraded forests. Human activities that generate heavily disturbed habitats preferred by R. rattus may promote the establishment of this invasive species in tropical forests in Borneo, and possibly elsewhere. We present this as an example of a synergistic effect, whereby forest disturbance directly threatens biodiversity and indirectly increases the threat posed by invasive species, creating habitat conditions that facilitate the establishment of non-native fauna. [ABSTRACT FROM AUTHOR]

Published

2016

8. Assessing the Status of Wild Felids in a Highly-Disturbed Commercial Forest Reserve in Borneo and the Implications for Camera Trap Survey Design.

Author

Wearn, Oliver R., Rowcliffe, J. Marcus, Carbone, Chris, Bernard, Henry, and Ewers, Robert M.

Subjects

FOREST reserves, COMMERCIAL forests, CATS as laboratory animals, CONSERVATION biology, COMPARATIVE studies

Abstract

The proliferation of camera-trapping studies has led to a spate of extensions in the known distributions of many wild cat species, not least in Borneo. However, we still do not have a clear picture of the spatial patterns of felid abundance in Southeast Asia, particularly with respect to the large areas of highly-disturbed habitat. An important obstacle to increasing the usefulness of camera trap data is the widespread practice of setting cameras at non-random locations. Non-random deployment interacts with non-random space-use by animals, causing biases in our inferences about relative abundance from detection frequencies alone. This may be a particular problem if surveys do not adequately sample the full range of habitat features present in a study region. Using camera-trapping records and incidental sightings from the Kalabakan Forest Reserve, Sabah, Malaysian Borneo, we aimed to assess the relative abundance of felid species in highly-disturbed forest, as well as investigate felid space-use and the potential for biases resulting from non-random sampling. Although the area has been intensively logged over three decades, it was found to still retain the full complement of Bornean felids, including the bay cat Pardofelis badia, a poorly known Bornean endemic. Camera-trapping using strictly random locations detected four of the five Bornean felid species and revealed inter- and intra-specific differences in space-use. We compare our results with an extensive dataset of >1,200 felid records from previous camera-trapping studies and show that the relative abundance of the bay cat, in particular, may have previously been underestimated due to the use of non-random survey locations. Further surveys for this species using random locations will be crucial in determining its conservation status. We advocate the more wide-spread use of random survey locations in future camera-trapping surveys in order to increase the robustness and generality of inferences that can be made. [ABSTRACT FROM AUTHOR]

Published

2013

9. Tropical logging and deforestation impacts multiple scales of weevil beta-diversity.

Author

Sharp, Adam C., Barclay, Maxwell V.L., Chung, Arthur Y.C., and Ewers, Robert M.

Subjects

*DEFORESTATION, *CURCULIONIDAE, *LOGGING, *OIL palm, *BIOTIC communities, *FOREST biodiversity

Abstract

Half of Borneo's forest has been logged and oil palm plantations have replaced millions of hectares of forest since the 1970's. While this extensive land-use change has been shown to reduce species richness across landscapes, there is limited current knowledge on how deforestation affects the spatial arrangement of ecological communities. Identifying responses of beta-diversity to land-use change may reveal processes which could mitigate total biodiversity loss. We sampled weevils (superfamily: Curculionoidea) at multiple spatial scales across a land-use gradient at the Stability of Altered Forest Ecosystems (SAFE) Project in Sabah, Malaysia, in 2011–2012. We caught 160 taxa of weevil and calculated the response of alpha-diversity (1-ha scale) and beta-diversity (10-, 100-, and 1000-ha scales) to disturbance. Alpha-diversity of weevils was greatest in unlogged forest but landscape-level beta-diversity (100- and 1000-ha scale) was maintained across logged and unlogged due to high rates of spatial turnover. Turnover at smallest spatial scales (10-ha) in unlogged forest was highest in rough, flat terrain but smooth, sloping terrain had highest turnover in logged forest. Logging of flat terrain at small spatial scales has potential to decrease beta-diversity at greater scales. Beta-diversity at landscape-level in oil palm plantation remained high but was propagated by abundance shifts of few species instead of spatial turnover of many species. High temporal beta-diversity in unlogged forest was evident through periodic fluxes in abundance of many weevil species. We conclude that unlogged forest is irreplaceable for high beetle biodiversity but increased spatial turnover in some terrains may help conserve beetle communities in heavily-degraded landscapes. [ABSTRACT FROM AUTHOR]

Published

2019

10. Mapping the structure of Borneo's tropical forests across a degradation gradient.

Author

Pfeifer, M., Kor, L., Nilus, R., Turner, E., Cusack, J., Lysenko, I., Khoo, M., Chey, V.K., Chung, A.C., and Ewers, R.M.

Subjects

*TROPICAL forests, *BIODEGRADATION, *DEFORESTATION, *FOREST conservation

Abstract

South East Asia has the highest rate of lowland forest loss of any tropical region, with logging and deforestation for conversion to plantation agriculture being flagged as the most urgent threats. Detecting and mapping logging impacts on forest structure is a primary conservation concern, as these impacts feed through to changes in biodiversity and ecosystem functions. Here, we test whether high-spatial resolution satellite remote sensing can be used to map the responses of aboveground live tree biomass (AGB), canopy leaf area index (LAI) and fractional vegetation cover (FCover) to selective logging and deforestation in Malaysian Borneo. We measured these attributes in permanent vegetation plots in rainforest and oil palm plantations across the degradation landscape of the Stability of Altered Forest Ecosystems project. We found significant mathematical relationships between field-measured structure and satellite-derived spectral and texture information, explaining up to 62% of variation in biophysical structure across forest and oil palm plots. These relationships held at different aggregation levels from plots to forest disturbance types and oil palms allowing us to map aboveground biomass and canopy structure across the degradation landscape. The maps reveal considerable spatial variation in the impacts of previous logging, a pattern that was less clear when considering field data alone. Up-scaled maps revealed a pronounced decline in aboveground live tree biomass with increasing disturbance, impacts which are also clearly visible in the field data even a decade after logging. Field data demonstrate a rapid recovery in forest canopy structure with the canopy recovering to pre-disturbance levels a decade after logging. Yet, up-scaled maps show that both LAI and FCover are still reduced in logged compared to primary forest stands and markedly lower in oil palm stands. While uncertainties remain, these maps can now be utilised to identify conservation win–wins, especially when combining them with ongoing biodiversity surveys and measurements of carbon sequestration, hydrological cycles and microclimate. [ABSTRACT FROM AUTHOR]

Published

2016