369 results
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2. Moving Away from Paper Corridors in Southeast Asia.
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JAIN, ANUJ, CHONG, KWEK YAN, CHUA, MARCUS AIK HWEE, and CLEMENTS, GOPALASAMY REUBEN
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BIODIVERSITY ,FOREST degradation ,ENVIRONMENTAL degradation ,FOREST conversion ,FOREST biodiversity - Abstract
The authors discuss the advantages and disadvantages of corridors as biodiversity conservation solutions. Topics discussed include the impact of poorly implemented corridor, corridors as conservation measures to reduce the negative impacts of forest fragmentation on biodiversity and the Central Forest Spine (CFS) Master Plan for Ecological Linkages from Peninsular Malaysia designed to restore ecological connectivity between 4 fragmented forest complexes through 17 primary linkages or corridors.
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- 2014
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3. Saproxylic beetles' morphological traits and higher trophic guilds indicate boreal forest naturalness.
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Wetherbee, Ross, Birkemoe, Tone, Burner, Ryan C., and Sverdrup‐Thygeson, Anne
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TAIGAS ,SPECIES diversity ,BEETLES ,BIODIVERSITY ,BIODIVERSITY monitoring ,FOREST biodiversity ,FOREST management - Abstract
Forests contribute to numerous ecosystem functions and services and contain a large proportion of terrestrial biodiversity, but they are being negatively impaced by anthropogenic activities. Forests that have never been clear‐cut and have old growth characteristics, termed "near‐natural," often harbor different and richer species assemblages than managed forests. Alternative management strategies may be able to balance the needs of biodiversity with the demands of forestry, but evaluation efforts are limited by the challenges of measuring biodiversity. Species richness is frequently used as a simple measure of biodiversity, but research indicates that it may not adequately capture community‐level changes. Alternatively, trait‐based measures of biodiversity may prove to be useful, but research is lacking. In this paper, we use a large dataset that includes 339 obligate saproxylic beetle species collected over a decade in the boreal region throughout southern Norway to: (1) establish if there is a difference in beetle community composition between near‐natural and managed forests; and (2) determine which measures of beetle biodiversity best indicate forest naturalness. We arranged the sites in an ordination space and tested for differences in community composition between these forest types. We also tested different measures of biodiversity to determine which were the most predictive of forest naturalness. We found a clear difference in community composition between near‐natural and managed forests. Additionally, three measures of biodiversity were most predictive of forest naturalness: proportional abundance of predators, community weighted mean (CWM) of wing length, and CWM of body roundness. The probability that a forest was near‐natural increased with the proportional abundance of predators but decreased with CWM wing length and body roundness. Although species richness was higher in near‐natural forests, the effect was not significant. Overall, our findings underscore the conservation value of near‐natural forests and highlight the potential of several measures of biodiversity for determining forest quality. [ABSTRACT FROM AUTHOR]
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- 2023
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4. What is unmanaged forest and how does it sustain biodiversity in landscapes with a long history of intensive forestry?
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Bruun, Hans Henrik and Heilmann‐Clausen, Jacob
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FOREST biodiversity ,FOREST restoration ,FORESTS & forestry ,FOREST management ,FOREST conservation ,TEMPERATE forests - Abstract
Copyright of Journal of Applied Ecology is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
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- 2021
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- View/download PDF
5. Capturing red squirrels (Sciurus vulgaris) on camera: A cost‐effective approach for monitoring relative abundance and habitat preference.
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Shannon, Graeme, Valle, Simon, and Shuttleworth, Craig M.
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TAMIASCIURUS ,HABITAT selection ,SQUIRRELS ,WILDLIFE conservation ,FOREST thinning ,FOREST biodiversity - Abstract
Effective methods for monitoring animal populations are crucial for species conservation and habitat management. Motion‐activated cameras provide an affordable method for passively surveying animal presence across the landscape but have mainly been used for studying large‐bodied mammals. This paper explores the relative abundance and habitat preferences of red squirrels (Sciurus vulgaris) in coniferous forests using cameras and live trapping. The study was conducted in two forests (Newborough and Pentraeth) on Anglesey, North Wales, with a total of 50 sampling locations across four habitat categories. Detailed woodland structure and composition data were gathered around each sampling location. We found a strong positive correlation between the number of individual red squirrels live trapped over 10 days with the number of camera images of squirrels recorded during a previous 5‐day period. The time interval between camera deployment and the first recorded image of a red squirrel showed a significant negative correlation with the number of individuals live trapped. Red squirrel relative abundance was negatively related to forest canopy openness, while the presence of Scots pine and increased tree species diversity were positively associated with the relative abundance of squirrels. There was also a strong site difference with lower relative abundance at Newborough compared with Pentraeth, which likely reflects the heavy thinning of mature forest at Newborough reducing tree crown connectivity. The results show that remotely activated cameras are an effective method for monitoring red squirrel populations across varying animal densities. The cameras also provided crucial information on red squirrel habitat preferences that can aid in woodland management and conservation efforts. Cameras have great potential to collect data on the population status of other small mammals, but it is essential that these methods are validated on a species‐by‐species basis. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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6. Modelling the propagation of invasive tree species: A coupled differential equation approach.
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Hughes, Elliott, Moyers-Gonzalez, Miguel, Murray, Rua, Wilson, Phillip L., and Sivaloganathan, Siv
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INTRODUCED species , *DIFFERENTIAL equations , *FOREST biodiversity , *ECOSYSTEMS , *CRITICAL point (Thermodynamics) , *ECOLOGICAL models - Abstract
Invasive tree species pose a grave global threat to biodiversity, particularly impacting vulnerable grassland ecosystems. This paper presents a novel approach to simulate the invasion of ecosystems by these aggressive species. Our innovative coupled ODE-PDE model offers explicit invasion simulations, a significant leap beyond traditional integro-difference matrix models. With robust theoretical properties, including solution positivity, and drawing upon PDE theory, our model offers deeper insights into invasion behavior. Our model reveals that invasions undergo a prolonged quiescent phase before rapidly transitioning to a consistent rate of advancement after a critical point. This study not only sheds light on invasion dynamics but also charts a course for future exploration and potential model extensions. [ABSTRACT FROM AUTHOR]
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- 2024
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7. Camera trap surveys of Atlantic Forest mammals: A data set for analyses considering imperfect detection (2004–2020).
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Franceschi, Ingridi Camboim, Dornas, Rubem Augusto da Paixão, Lermen, Isabel Salgueiro, Coelho, Artur Vicente Pfeifer, Vilas Boas, Ademir Henrique, Chiarello, Adriano Garcia, Paglia, Adriano Pereira, de Souza, Agnis Cristiane, Borsekowsky, Alana Rafaela, Rocha, Alessandro, Bager, Alex, de Souza, Alexander Zaidan, Lopes, Alexandre Martins Costa, de Moura, Aloysio Souza, Ferreira, Aluane Silva, García‐Olaechea, Alvaro, Delciellos, Ana Cláudia, Bacellar, Ana Elisa de Faria, Campelo, Ana Kellen Nogueira, and Paschoal, Ana Maria Oliveira
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FOREST surveys , *FOREST conservation , *FOREST biodiversity , *MAMMAL populations , *DATA analysis , *CAMERAS - Abstract
Camera traps became the main observational method of a myriad of species over large areas. Data sets from camera traps can be used to describe the patterns and monitor the occupancy, abundance, and richness of wildlife, essential information for conservation in times of rapid climate and land‐cover changes. Habitat loss and poaching are responsible for historical population losses of mammals in the Atlantic Forest biodiversity hotspot, especially for medium to large‐sized species. Here we present a data set from camera trap surveys of medium to large‐sized native mammals (>1 kg) across the Atlantic Forest. We compiled data from 5380 ground‐level camera trap deployments in 3046 locations, from 2004 to 2020, resulting in 43,068 records of 58 species. These data add to existing data sets of mammals in the Atlantic Forest by including dates of camera operation needed for analyses dealing with imperfect detection. We also included, when available, information on important predictors of detection, namely the camera brand and model, use of bait, and obstruction of camera viewshed that can be measured from example pictures at each camera location. Besides its application in studies on the patterns and mechanisms behind occupancy, relative abundance, richness, and detection, the data set presented here can be used to study species' daily activity patterns, activity levels, and spatiotemporal interactions between species. Moreover, data can be used combined with other data sources in the multiple and expanding uses of integrated population modeling. An R script is available to view summaries of the data set. We expect that this data set will be used to advance the knowledge of mammal assemblages and to inform evidence‐based solutions for the conservation of the Atlantic Forest. The data are not copyright restricted; please cite this paper when using the data. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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8. Disrupted montane forest recovery hinders biodiversity conservation in the tropical Andes.
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Christmann, Tina, Palomeque, Ximena, Armenteras, Dolors, Wilson, Sarah Jane, Malhi, Yadvinder, and Oliveras Menor, Imma
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MOUNTAIN forests ,FOREST restoration ,BIODIVERSITY conservation ,FOREST biodiversity ,TROPICAL forests ,TIME series analysis ,FOREST dynamics - Abstract
Aim: Andean montane forests are biodiversity hotspots and large carbon stores and they provide numerous ecosystem services. Following land abandonment after centuries of forest clearing for agriculture in the Andes, there is an opportunity for forest recovery. Field‐based studies show that forests do not always recover. However, large‐scale and long‐term knowledge of recovery dynamics of Andean forests remains scarce. This paper analyses tropical montane forest recovery trajectories over a 15‐year time frame at the landscape and tropical Andean scale to inform restoration planning. Methods: We first detect "potential recovery" as areas that have experienced a forest transition between 2000 and 2005. Then, we use Landsat time series analysis of the normalized difference water index (NDWI) to classify four "realized recovery" trajectories ("ongoing", "arrested", "disrupted" and "no recovery") based on a sequential pattern of 5‐yearly Z‐score anomalies for 2005–2020. We compare these results against an analysis of change in tree cover to validate against other datasets. Results: Across the tropical Andes, we detected a potential recovery area of 274 km2 over the period. Despite increases in tree cover, most areas of the Andes remained in early successional states (10–25% tree cover), and NDWI levelled out after 5–10 years. Of all potential forest recovery areas, 22% showed "ongoing recovery", 61% showed either "disrupted" or "arrested recovery", and 17% showed "no recovery". Our method captured forest recovery dynamics in a Peruvian arrested succession context and in landscape‐scale tree‐planting efforts in Ecuador. Main conclusions: Forest recovery across the Andes is mostly disrupted, arrested or unsuccessful, with consequences for biodiversity recovery and provision of ecosystem services. Low‐recovery areas identified in this study might be good candidates for active restoration interventions in this UN Decade on Restoration. Future studies could determine restoration strategies and priorities and suggest management strategies at a local planning scale across key regions in the biodiversity hotspot. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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9. A tribute to whom defend the forest: Hyptidendron dorothyanum (Lamiaceae: Hyptidinae), a new species from the Amazonian domain.
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Antar, Guilherme Medeiros, Harley, Raymond Mervyn, Pastore, José Floriano Barêa, and Sano, Paulo Takeo
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TROPICAL forests ,SPECIES ,BIODIVERSITY conservation ,FOREST biodiversity ,BOTANY ,LAMIACEAE ,DEFORESTATION - Abstract
Amazonia, despite being famous as the most prominent tropical forest, is currently suffering high rates of degradation, with recurrent fires and deforestation, which could shortly lead it to be classified as a biodiversity hotspot for conservation. Although the known flora of the domain displays exceptional richness, its diversity is far from being well known, with several new species being described each year and lots of areas still poorly collected. During the preparation of a revision of Hyptidendron (Lamiaceae, subtribe Hyptidinae), a small genus with 21 species, unidentified and unmatched specimens from the Amazonian domain were uncovered. Here we describe and illustrate these specimens as Hyptidendron dorothyanum sp. nov., named in honor of Sister Dorothy Stang, murdered for her support for the biodiversity of the Amazon and her defence of the rights of local people. The new species, currently known from just two gatherings from Amazonas and Pará States is compared with its most closely related species, Hyptidendron canum, H. arboreum, H. asperrimum and H. leucophyllum. We also provide a distribution map, a preliminary conservation assessment, as well as comments on the phenology and ecology of the new species. This paper calls attention to the importance of the conservation of Amazonia and its rich but still not completely known diversity. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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10. Citizens' preferences for development outcomes and governance implications.
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Falk, Thomas, Vorlaufer, Tobias, Brown, Lawrence, Domptail, Stephanie, and Dallimer, Martin
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NATURE conservation ,FOREST reserves ,ECOLOGICAL integrity ,WATERSHEDS ,FOREST biodiversity ,INTEGRITY ,FOOD preferences - Abstract
People's preferences influence national priorities for economic development and ecological integrity. Often policymakers and development agents base their actions on unclear assumptions about such preferences. This paper explores rural citizens' preferences for economic and ecological development outcomes and how they differ within and between communities. We collected data from three purposely selected communities representing dominant social‐ecological systems in the transboundary Cubango‐Okavango River basin in southern Africa. We used contingent ranking survey experiments, which are a novel methodological advance in policy related research. This included a qualitative experimental design process that provided a broad framing underpinning the research. The contingent ranking itself allowed us to simultaneously assess: (i) respondents' priorities for development domains; and (ii) respondents' preferences for the ordering of outcomes in diverse domains. We found relatively strong preference homogeneity within and between communities. Economic development was given high priority across all communities. At the same time, all communities expressed a high preference for a healthy river system providing stable water quality and quantity. This does not mean that our respondents prioritised nature conservation. They showed low preferences for preserving biodiversity and forests that provide fewer local benefits. This is of high governance relevance. The results point at development domains where policymakers can most likely expect stronger buy‐in from citizens. Understanding citizens' preferences help to better align national development priorities with what citizens want. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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11. Land‐use history determines ecosystem services and conservation value in tropical agroforestry.
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Martin, Dominic Andreas, Osen, Kristina, Grass, Ingo, Hölscher, Dirk, Tscharntke, Teja, Wurz, Annemarie, and Kreft, Holger
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FORESTS & forestry ,FOREST conversion ,AGROFORESTRY ,FOREST degradation ,FOREST biodiversity ,SUSTAINABLE development ,ECOSYSTEM services - Abstract
Agroforestry is widely promoted as a potential solution to address multiple UN Sustainable Development Goals, including Zero Hunger, Responsible Consumption and Production, Climate Action, and Life on Land. Nonetheless, agroforests in the tropics often result from direct forest conversions, displacing rapidly vanishing and highly biodiverse forests with large carbon stocks, causing undesirable trade‐offs. Scientists thus debate whether the promotion of agroforestry in tropical landscapes is a sensible policy. So far, this debate typically fails to consider land‐use history, that is, whether an agroforest is derived from forest or from open land. Indeed, 57% of papers which we systematically reviewed did not describe the land‐use history of focal agroforestry systems. We further find that forest‐derived agroforestry supports higher biodiversity than open‐land‐derived agroforestry but essentially represents a degradation of forest, whereas open‐land‐derived agroforestry rehabilitates formerly forested open land. Based on a conceptual framework, we recommend to (a) promote agroforestry on suitable open land, (b) maintain tree cover in existing forest‐derived agroforests, and (c) conserve remaining forests. Land‐use history should be incorporated into land‐use policy to avoid incentivizing forest degradation and to harness the potential of agroforestry for ecosystem services and biodiversity. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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12. Biodiversity policy beyond economic growth.
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Otero, Iago, Farrell, Katharine N., Pueyo, Salvador, Kallis, Giorgos, Kehoe, Laura, Haberl, Helmut, Plutzar, Christoph, Hobson, Peter, García‐Márquez, Jaime, Rodríguez‐Labajos, Beatriz, Martin, Jean‐Louis, Erb, Karl‐Heinz, Schindler, Stefan, Nielsen, Jonas, Skorin, Teuta, Settele, Josef, Essl, Franz, Gómez‐Baggethun, Erik, Brotons, Lluís, and Rabitsch, Wolfgang
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ECONOMIC expansion ,ECONOMIC policy ,BIODIVERSITY ,BIODIVERSITY conservation ,FOREST biodiversity - Abstract
Increasing evidence—synthesized in this paper—shows that economic growth contributes to biodiversity loss via greater resource consumption and higher emissions. Nonetheless, a review of international biodiversity and sustainability policies shows that the majority advocate economic growth. Since improvements in resource use efficiency have so far not allowed for absolute global reductions in resource use and pollution, we question the support for economic growth in these policies, where inadequate attention is paid to the question of how growth can be decoupled from biodiversity loss. Drawing on the literature about alternatives to economic growth, we explore this contradiction and suggest ways forward to halt global biodiversity decline. These include policy proposals to move beyond the growth paradigm while enhancing overall prosperity, which can be implemented by combining top‐down and bottom‐up governance across scales. Finally, we call the attention of researchers and policy makers to two immediate steps: acknowledge the conflict between economic growth and biodiversity conservation in future policies; and explore socioeconomic trajectories beyond economic growth in the next generation of biodiversity scenarios. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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13. Revisiting Patterns of Tree Species Composition and their Driving Forces in the Atlantic Forests of Southeastern Brazil.
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Eisenlohr, Pedro V. and Oliveira‐Filho, Ary Teixeira
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COMPOSITION of trees ,PLANT species ,FORESTS & forestry ,PHYTOGEOGRAPHY ,FOREST biodiversity - Abstract
Copyright of Biotropica is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2015
- Full Text
- View/download PDF
14. Spatiotemporal patterns of forest pollinator diversity across the southeastern United States.
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Ulyshen, Michael, Adams, Cory, Adams, Jacqui, Adams, Susan B., Bland, Mickey, Bragg, Don C., Burdine, Chuck, Callaham, Mac A., Chaney, Richard, Chapman, Gregg, Clinton, Patsy, Dixon, Cinnamon, Floyd, Jacob, Jordan, Phillip, Keyser, Tara, Laseter, Stephanie, Mallinger, Rachel, McDaniel, Virginia, Mudder, Bryan, and Nelson, C. Dana
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FOREST biodiversity ,INSECT pollinators ,SYRPHIDAE ,BROADLEAF forests ,BUTTERFLIES ,COASTAL plains ,POLLINATION by bees ,PINACEAE - Abstract
Aim: Efforts to understand how pollinating insect diversity is distributed across large geographic areas are rare despite the importance of such work for conserving regional diversity. We sought to relate the diversity of bees (Hymenoptera: Apoidea), hover flies (Diptera: Syrphidae), and butterflies (Lepidoptera) to ecoregion, landscape context, canopy openness, and forest composition across southeastern U.S. forests. Location: Nineteen experimental forests across nine states in the southeastern U.S. Methods: We established 5–7 plots on each experimental forest. In each, we sampled pollinators monthly (March–September) using coloured pan traps, and collected data on local forest characteristics. We used the National Land Cover Database (NLCD) to quantify surrounding landcover at different spatial scales. Results: Bee richness was negatively correlated with both the amount of conifer (pine) forest and the extent of wetlands in the surrounding landscape but was positively correlated with canopy openness. Hover flies and butterflies were less sensitive to landscape context and stand conditions. Pollinator communities differed considerably among ecoregions, with those of the Central Appalachian and Coastal Plain ecoregions being particularly distinct. Bee richness and abundance peaked 2 months earlier in Central Appalachia than in the Coastal Plain and Southeastern Mixed Forest ecoregions. Main Conclusions: Our findings reveal ecoregional differences in pollinator communities across the southeastern U.S. and highlight the importance of landscape context and local forest conditions to this diverse fauna. The closed broadleaf forests of Appalachia and the open conifer‐dominated forests of the Coastal Plain support particularly distinct pollinator communities with contrasting seasonality. Our results suggest pine forests may reduce pollinator diversity in regions historically dominated by broadleaf forests. However, efforts to create more open canopies can help improve conditions for pollinators in planted pine forests. Research exploring associations between forest pollinators and different broadleaf tree taxa is needed to better anticipate the impacts of various management activities. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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15. Genotyping‐by‐sequencing informs conservation of Andean palms sources of non‐timber forest products.
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Peñafiel Loaiza, Nicolás, Chafe, Abigail H., Moraes R, Mónica, Oleas, Nora H., and Roncal, Julissa
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GENETIC variation ,FOREST products ,ENDEMIC species ,ENVIRONMENTAL degradation ,WILDLIFE conservation ,FOREST biodiversity - Abstract
Conservation and sustainable management of lineages providing non‐timber forest products are imperative under the current global biodiversity loss. Most non‐timber forest species, however, lack genomic studies that characterize their intraspecific variation and evolutionary history, which inform species' conservation practices. Contrary to many lineages in the Andean biodiversity hotspot that exhibit high diversification, the genus Parajubaea (Arecaceae) has only three species despite the genus' origin 22 million years ago. Two of the three palm species, P. torallyi and P. sunkha, are non‐timber forest species endemic to the Andes of Bolivia and are listed as IUCN endangered. The third species, P. cocoides, is a vulnerable species with unknown wild populations. We investigated the evolutionary relationships of Parajubaea species and the genetic diversity and structure of wild Bolivian populations. Sequencing of five low‐copy nuclear genes (3753 bp) challenged the hypothesis that P. cocoides is a cultigen that originated from the wild Bolivian species. We further obtained up to 15,134 de novo single‐nucleotide polymorphism markers by genotyping‐by‐sequencing of 194 wild Parajubaea individuals. Our total DNA sequencing effort rejected the taxonomic separation of the two Bolivian species. As expected for narrow endemic species, we observed low genetic diversity, but no inbreeding signal. We found three genetic clusters shaped by geographic distance, which we use to propose three management units. Different percentages of missing genotypic data did not impact the genetic structure of populations. We use the management units to recommend in situ conservation by creating new protected areas, and ex situ conservation through seed collection. [ABSTRACT FROM AUTHOR]
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- 2024
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16. Assessing experimental silvicultural treatments enhancing structural complexity in a central European forest – BEAST time‐series analysis based on Sentinel‐1 and Sentinel‐2.
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Kacic, Patrick, Gessner, Ursula, Holzwarth, Stefanie, Thonfeld, Frank, and Kuenzer, Claudia
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FOREST dynamics ,FOREST resilience ,FOREST monitoring ,ENVIRONMENTAL degradation ,FOREST biodiversity ,STRUCTURAL health monitoring ,TIME series analysis ,CHANGE-point problems - Abstract
Assessing the dynamics of forest structure complexity is a critical task in times of global warming, biodiversity loss and increasing disturbances in order to ensure the resilience of forests. Recent studies on forest biodiversity and forest structure emphasize the essential functions of deadwood accumulation and diversification of light conditions for the enhancement of structural complexity. The implementation of an experimental patch‐network in managed broad‐leaved forests within Germany enables the standardized analysis of various aggregated and distributed treatments characterized through diverse deadwood and light structures. To monitor the dynamics of enhanced forest structure complexity as seasonal and trend components, dense time‐series from high spatial resolution imagery of Sentinel‐1 (Synthetic‐Aperture Radar, SAR) and Sentinel‐2 (multispectral) are analyzed in time‐series decomposition models (BEAST, Bayesian Estimator of Abrupt change, Seasonal change and Trend). Based on several spatial statistics and a comprehensive catalog on spectral indices, metrics from Sentinel‐1 (n = 84) and Sentinel‐2 (n = 903) are calculated at patch‐level. Metrics best identifying the treatment implementation event are assessed by change point dates and probability scores. Heterogeneity metrics of Sentinel‐1 VH and Sentinel‐2 NMDI (Normalized Multi‐band Drought Index) capture the treatment implementation event most accurately, with clear advantages for the identification of aggregated treatments. In addition, aggregated structures of downed or no deadwood can be characterized, as well as more complex standing structures, such as snags or habitat trees. To conclude, dense time‐series of complementary high spatial resolution sensors have the potential to assess various aggregated forest structure complexities, thus supporting the continuous monitoring of forest habitats and functioning over time. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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17. Impacts of Forest Management‐Induced Productivity Changes on Future Land Use and Land Cover Change.
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Luo, Meng, Daigneault, Adam, Zhao, Xin, Hao, Dalei, and Chen, Min
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LAND cover ,LAND use ,FOREST management ,CARBON cycle ,FOREST reserves ,FOREST biodiversity - Abstract
Anthropogenic land use and land cover change (LULCC) is projected to continue in the future. However, the influence of forest management on forest productivity change and subsequent LULCC projections remains under‐investigated. This study explored the impacts of forest management‐induced change in forest productivity on LULCC throughout the 21st century. Specifically, we developed a framework to softly couple the Global Change Analysis Model and Global Timber Model to consider forest management‐induced forest productivity change and projected future LULCC across the five Shared Socioeconomic Pathways (SSPs). We found future increases in forest management intensity overall drive the increase of forest productivity. The forest management‐induced forest productivity change shows diverse responses across all SSPs, with a global increase from 2015 to 2100 ranging from 3.9% (SSP3) to 8.8% (SSP1). This further leads to an overall decrease in the total area with a change of land use types, with the largest decrease under SSP1 (−7.5%) and the smallest decrease under SSP3 (−0.7%) in 2100. Among land use types, considering forest management‐induced change significantly reduces the expansion of managed forest and also reduces the loss of natural land in 2100 across SSPs. This suggests that ignoring forest management‐induced forest productivity change underestimates the efficiency of wood production, overestimates the managed forest expansion required to meet the future demand, and consequently, potentially introduces uncertainties into relevant analyses, for example, carbon cycle and biodiversity. Thus, we advocate to better account for the impacts of forest management in future LULCC projections. Plain Language Summary: Land use and land cover change has shown widespread social, economic, and environmental impacts. However, the influence of forest management on forest productivity change and subsequent land use and land cover change projections remains under‐investigated. This study explored how changes in forest productivity caused by forest management practices impact land use and land cover throughout the 21st century under various social and economic scenarios. The results show that more intense forest management generally leads to more productive forests. This, in turn, results in smaller changes in land use and land cover. Increasing forest management reduces the need to expand managed forests and helps preserve natural lands by 2100. Ignoring the impact of forest management on forest productivity could lead to biases in projecting forest expansion and wood production and potentially induce uncertainties in carbon cycling and biodiversity. Our results emphasize the need to account for forest management in future projections of land use and land cover changes. Key Points: Forest management‐induced productivity change has a significant impact on future land use and land cover change (LULCC)Neglecting such impact could overestimate the managed forest expansion and natural land reduction, especially under SSP1 and SSP5We advocate considering such impacts during LULCC projection to constrain the uncertainty [ABSTRACT FROM AUTHOR]
- Published
- 2024
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18. How forests may support psychological restoration: Modelling forest characteristics based on perceptions of forestry experts and the general public.
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Probst, Birgit M., Toraño Caicoya, Astor, Hilmers, Torben, Ramisch, Kilian, Snäll, Tord, Stoltz, Jonathan, Grahn, Patrik, and Suda, Michael
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FOREST management ,NATURE conservation ,FOREST biodiversity ,BIODIVERSITY conservation ,MIXED forests - Abstract
Spending time in forests benefits human well‐being, but the importance of forest characteristics on well‐being is unclear. This knowledge could help guide forest management decisions to improve outcomes for both people and nature.The overall aim of this study was to investigate how psychological restoration, defined as psychological recovery processes in nature, may be supported by forest characteristics. We (1) investigated how perceptions of restoration (perceived restorativeness) were linked to specific forest characteristics. More specifically, we selected attributes included in nature protection legislation in Germany (beauty, diversity and uniqueness) as the basis to evaluate how forest characteristics were related to perceived restorativeness. Additionally, we (2) tested differences in the assessments of these attributes between forestry experts and people from the general public. Based on the results of the first two objectives (1, 2), we (3) predicted how forest management that affects forest characteristics may impact psychological restoration today and in the future.We developed a perceived restorativeness model based on attributes stated in the German Nature Conservation Act and specific forest structure variables. Drawing from the literature, we included perceived naturalness as an additional key predictor for restoration. Forestry experts and participants from the general public were then asked to rate computer‐generated forest stand pictures on these attributes and restorativeness.We found that all attributes were positively associated with perceived restorativeness, but perceived beauty was most important. Perceived uniqueness was statistically significant, but the strength of the relationship was weak. Mixed forests were rated as most beautiful, while coniferous forest stands were rated as least beautiful. The general public gave higher ratings than forestry experts on all attributes, but the pattern was similar. Based on participant ratings, forests left without management (Set‐aside), followed by forests with management aiming for resilience to climate change (Adaptation forestry), both supporting biodiversity conservation, showed the highest perceived restorativeness over the course of 100 years.Based on our results, it could be recommendable to increase forest diversity, especially in areas with many visitors. However, more nuanced knowledge involving diverse stakeholders is needed to inform forest management decisions on landscape level. Read the free Plain Language Summary for this article on the Journal blog. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]
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- 2024
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19. The ash dieback crisis: genetic variation in resistance can prove a long-term solution.
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McKinney, L. V., Nielsen, L. R., Collinge, D. B., Thomsen, I. M., Hansen, J. K., and Kjær, E. D.
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ASH dieback ,CHALARA fraxinea ,EUROPEAN ash ,TREE breeding ,FOREST genetics ,FOREST biodiversity ,PLANT conservation - Abstract
Over the last two decades, ash dieback has become a major problem in Europe, where the causative fungus has invaded the continent rapidly. The disease is caused by the invasive pathogenic fungus Hymenoscyphus pseudoalbidus (anamorph Chalara fraxinea), which causes severe symptoms and dieback in common ash, Fraxinus excelsior. It is becoming a significant threat to biodiversity in forest ecosystems and the economic and aesthetic impacts are immense. Despite the presence of the disease for at least 10 years in Scandinavia, a small fraction of F. excelsior trees have remained vigorous, and these trees exhibit no or low levels of symptoms even where neighbouring trees are very sick. This gives hope that a fraction of the ash trees will retain a sufficiently viable growth to survive. Following a period of high mortality in natural populations, selection and breeding of remaining viable ash trees could therefore provide a route for restoring the role of ash in the landscape. This paper reviews the available data on disease dissemination, and the consequences thereof in terms of symptom severity and mortality, and appraises studies that have tested the hypothesis that less-affected trees have genetically based resistance. The implications of the results for the adaptive potential of common ash to respond to the disease through natural or assisted selection are discussed. The risks of adverse fitness effects of population fragmentation due to high mortality are considered. Finally, it is recommended that resistant trees (genotypes) should be selected to facilitate conservation of the species. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
20. Flawed Meta-Analysis of Biodiversity Effects of Forest Management.
- Author
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HALME, PANU, TOIVANEN, TERO, HONKANEN, MERJA, KOTIAHO, JANNE S., MÖNKKÖNEN, MIKKO, and TIMONEN, JONNA
- Subjects
FOREST management ,BIODIVERSITY conservation ,META-analysis ,SPECIES diversity ,SPECIES specificity ,RESEARCH bias ,RESEARCH -- Needs assessment ,FOREST biodiversity - Abstract
The article focuses on the meta-analysis concerning the effect of forest management on biodiversity based from the paper written by Y. Paillet and colleagues. It discusses four major shortcomings of the study that contradicts the result of their analysis such as observational independence, bias on the taxonomic distribution, and exaggerated generalizations of the taxonomic data. It mentions that data based from the studies on saproxylic beetles were used by Paillet and colleagues for the analysis. It also concludes that the use of species richness as biodiversity value can be misleading and that Paillet and colleagues' analysis did not contribute to the understanding of the effect of forest management on biodiversity.
- Published
- 2010
- Full Text
- View/download PDF
21. A proposed strategy for maintaining mature forest habitat in Tasmania's wood production forests.
- Author
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Koch, Amelia and Munks, Sarah
- Subjects
FOREST management ,FOREST ecology ,FOREST biodiversity ,FOREST conservation ,TREE cavities - Abstract
Summary: Mature forests have structural habitat features that can take hundreds of years to develop, and large reserves alone are unlikely to ensure conservation of the species that rely on these features. This paper outlines a proposed new approach to managing mature forest features, the ‘mature habitat management approach’, in areas outside of reserves. The objective was to maintain a network of current and future mature forest habitat distributed across the landscape. The approach is designed to complement the existing reserve network and management actions and is tenure‐blind. Spatial information on the availability of mature forest habitat at the local (1‐km radius) and landscape (5‐km radius) scales is used for decisions on retention within a 1‐km radius of a harvest area, to reach the minimum target of 20% and 30% retention of mature forest at the local and landscape spatial scales, respectively. We believe this approach could contribute to meeting the conservation needs of many species that require mature forest features for refuge and breeding in Tasmania and elsewhere. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
22. Plant-soil interactions maintain biodiversity and functions of tropical forest ecosystems.
- Author
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Fujii, Kazumichi, Shibata, Makoto, Kitajima, Kaoru, Ichie, Tomoaki, Kitayama, Kanehiro, and Turner, Benjamin L.
- Subjects
PLANT-soil relationships ,FOREST biodiversity ,SOIL weathering ,BIOGEOCHEMISTRY ,TROPICAL forests - Abstract
Tropical forests are characterized by high biodiversity and aboveground biomass growing on strongly weathered soils. However, the distribution of plant species and soils are highly variable even within a tropical region. This paper reviews existing and novel knowledge on soil genesis, plant and microbial physiology, and biogeochemistry. Typically, forests in Southeast Asia are dominated by dipterocarps growing on acidic Ultisols from relatively young parent material. In the Neotropics and Africa, forests contain abundant legume trees growing on Oxisols developed in the older parent materials on stable continental shields. In Southeast Asia, the removal of base cations from the surface soil due to leaching and uptake by dipterocarp trees result in intensive acidification and accumulation of exchangeable Al, which is toxic to most plants. Nutrient mining by ectomycorrhizal fungi and efficient allocation within tree organs can supply phosphorus (P) for reproduction (e.g., mast fruiting) even on P-limited soils. In the Neotropics and Africa, nitrogen (N) fixation by legume trees can ameliorate N or P limitation but excess N can promote acidification through nitrification. Biological weathering [e.g., plant silicon (Si) cycling] and leaching can lead to loss of Si from soil. The resulting accumulation of Al and Fe oxides in Oxisols that can reduce P solubility through sorption and lead to limitation of P relative to N. Thus, geographical variation in geology and plant species drives patterns of soil weathering and niche differentiation at the global scale in tropical forests. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
23. Growth–defense trade‐offs promote habitat isolation between recently‐diverged species.
- Author
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Harenčár, Julia G., Salazar‐Amoretti, Diego, García‐Robledo, Carlos, and Kay, Kathleen M.
- Subjects
FOREST biodiversity ,PLANT species ,TROPICAL forests ,UNDERSTORY plants ,PLANT maintenance ,REPRODUCTIVE isolation - Abstract
Copyright of Ecology & Evolution (20457758) is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2024
- Full Text
- View/download PDF
24. Identification and prioritization of stepping stones for biodiversity conservation in forest ecosystems.
- Author
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Lapin, Katharina, Hoffmann, Johanna A., Braun, Martin, and Oettel, Janine
- Subjects
FOREST conservation ,BIODIVERSITY conservation ,STONE ,FOREST biodiversity ,POPULATION viability analysis ,CLIMATE change adaptation - Abstract
Habitat degradation and fragmentation are two of the main drivers for biodiversity loss. To mitigate the negative impact of fragmentation in forests, conservation targets are increasingly addressing connectivity to facilitate the independent movement of species between habitat fragments to ensure genetic diversity and adaptation to climate change. In this article, we present a novel approach to identifying and prioritizing stepping stones for preserving connectivity based on national and regional biodiversity data for Austrian forest ecosystems. Our study identified forest areas where conservation measures should be taken to ensure future habitat connectivity by combining four indicator values with different requirements of a stepping stone habitat into a prioritization value. The four compounded indicators are: (i) the Protect Value, which includes distances to patches of protected areas with restricted management for the undisturbed development of retention areas, (ii) the Connect Value, which combines datasets of designated habitat corridors and connectivity areas in Austria based on landscape models and expert validation, (iii) the Species Value identifying species‐rich areas, and (iv) the Habitat Value identifying biotopes of high ecological value, key biodiversity areas, and sites of favorable protection status. Nonparametric tests revealed significant differences in prioritization value among the ecoregions of Austria and therefore encourage the consideration of stepping stone prioritization at local and regional context. Building upon the insights from this case study on Austrian forest ecosystems, we developed a robust framework derived from our methodology. This framework is designed to facilitate future implementations in diverse study regions, accounting for factors beyond connectivity crucial for identifying high value stepping stone habitats. We encourage adaptation of this framework to local data availability, species requirements, and local conditions. The compiled framework provides decision support for managers and conservationists for prioritizing areas to conserve and improve connectivity of forest habitats. However, it does not substitute on‐the‐ground field assessments of habitat quality and measures of functional connectivity. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
25. Unveiling the complex networks of urban tree diversity research: A global perspective.
- Author
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Xie, Chunping, Chen, Shuifei, Liu, Dawei, and Jim, Chi Yung
- Subjects
URBAN trees ,URBAN ecology ,KNOWLEDGE graphs ,HUMAN ecology ,REMNANT vegetation ,FOREST biodiversity ,ECOSYSTEMS - Abstract
Ecosystem services offered by urban forests must be proactively managed to remain diverse and sustainable. Recent research findings deserve a systematic synthesis to elucidate inherent knowledge structures and dynamics. This study focused on the urban tree diversity theme from 2000 to 2022. Web of Science Core Collection database provided bibliometric details on academic publications. The data‐driven quantitative analysis explored research quantities, emphasis, trends, patterns, linkages, and impacts by countries, institutions, authors, journals, and citations. Publications and research topics have expanded continually, with accelerated growth in recent years. Research activities, outputs and interactions demonstrated conspicuous spatial clustering. A few countries, institutions and researchers generated a notable proportion of publications. Their scholarly contributions were visualized in knowledge graphs as complex networks of nodes and inter‐node links. Keyword analysis generated a network to indicate research hotspots and frontiers to steer and prioritize future studies. Recent findings affirmed that cities can harbor substantial tree diversity due to enhanced habitat heterogeneity and successful species adaptation. Aligning tree traits with environmental conditions and management objectives can improve benefits. Urbanization can filter tree traits to shape community assemblages through stressors: habitat degradation, fragmentation and loss, in conjunction with pollution, climate change, and introduced species. Diversity preservation strategies include protecting remnant natural vegetation, connecting green spaces, and restoring complex canopy geometry and biomass structure. The emerging frontiers are marked by modeling future species distributions, leveraging technologies like remote sensing, linking ecology with human values, and committing to community‐based stewardship. Management can be upgraded by interdisciplinary perspectives integrating ecological science and social engagement. The findings highlight the need for biodiversity enrichment anchored by native species, trait‐matched assemblages, adaptive policies, and community participation to create livable‐green cities. This review synthesizes key advances in urban tree ecology and biodiversity research to inform the planning and stewardship of resilient urban forests. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
26. Major axes of variation in tree demography across global forests.
- Author
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Leite, Melina de Souza, McMahon, Sean M., Prado, Paulo Inácio, Davies, Stuart J., Oliveira, Alexandre Adalardo de, De Deurwaerder, Hannes P., Aguilar, Salomón, Anderson‐Teixeira, Kristina J., Aqilah, Nurfarah, Bourg, Norman A., Brockelman, Warren Y., Castaño, Nicolas, Chang‐Yang, Chia‐Hao, Chen, Yu‐Yun, Chuyong, George, Clay, Keith, Duque, Álvaro, Ediriweera, Sisira, Ewango, Corneille E. N., and Gilbert, Gregory
- Subjects
VITAL statistics ,DEMOGRAPHY ,MULTILEVEL models ,TREE growth ,FOREST biodiversity ,DEAD trees ,SPECIES diversity - Abstract
The future trajectory of global forests is closely intertwined with tree demography, and a major fundamental goal in ecology is to understand the key mechanisms governing spatio‐temporal patterns in tree population dynamics. While previous research has made substantial progress in identifying the mechanisms individually, their relative importance among forests remains unclear mainly due to practical limitations. One approach to overcome these limitations is to group mechanisms according to their shared effects on the variability of tree vital rates and quantify patterns therein. We developed a conceptual and statistical framework (variance partitioning of Bayesian multilevel models) that attributes the variability in tree growth, mortality, and recruitment to variation in species, space, and time, and their interactions – categories we refer to as organising principles (OPs). We applied the framework to data from 21 forest plots covering more than 2.9 million trees of approximately 6500 species. We found that differences among species, the species OP, proved a major source of variability in tree vital rates, explaining 28–33% of demographic variance alone, and 14–17% in interaction with space, totalling 40–43%. Our results support the hypothesis that the range of vital rates is similar across global forests. However, the average variability among species declined with species richness, indicating that diverse forests featured smaller interspecific differences in vital rates. Moreover, decomposing the variance in vital rates into the proposed OPs showed the importance of unexplained variability, which includes individual variation, in tree demography. A focus on how demographic variance is organized in forests can facilitate the construction of more targeted models with clearer expectations of which covariates might drive a vital rate. This study therefore highlights the most promising avenues for future research, both in terms of understanding the relative contributions of groups of mechanisms to forest demography and diversity, and for improving projections of forest ecosystems. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
27. The conflict between Rights of Nature and mining in Ecuador: Implications of the Los Cedros Cloud Forest case for biodiversity conservation.
- Author
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Peck, M. R., Desselas, M., Bonilla‐Bedoya, S., Redín, G., and Durango‐Cordero, J.
- Subjects
INDIGENOUS rights ,ENVIRONMENTAL rights ,TRADITIONAL ecological knowledge ,FOREST biodiversity ,CLOUD forests ,BIODIVERSITY conservation ,ECOLOGICAL integrity - Abstract
Copyright of People & Nature is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2024
- Full Text
- View/download PDF
28. Scale dependency of lidar‐derived forest structural diversity.
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FOREST biodiversity ,REMOTE sensing - Published
- 2023
- Full Text
- View/download PDF
29. Functional identity regulates aboveground biomass better than trait diversity along abiotic conditions in global forest metacommunities.
- Author
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Wang, Li‐Qiu and Ali, Arshad
- Subjects
CARBON sequestration in forests ,FOREST biodiversity ,STRUCTURAL equation modeling ,FOREST biomass ,BIOMASS - Abstract
Although several studies have identified the effects of functional trait diversity (FTD) and/or identity, i.e. the community‐weighted mean (CWM) of a trait, on aboveground biomass (AGB) along abiotic conditions, these effects on AGB in global forest metacommunities are still largely unexplored. Here, we modelled the effects of abiotic (i.e. climate, soil and plot physical conditions) and biotic [i.e. FTD, CWM of conservative traits (CWMCT), CWM of acquisitive traits (CWMAT) and functional dominance (FunDom; based on CWM of plant maximum height or diameter)] factors on AGB in 76 forest metacommunities (from 24 studies). Using multiple linear regression models and piecewise structural equation modeling (pSEM), we tested the hypothesis that both abiotic and biotic factors regulate AGB but that the mass ratio mechanism underpins AGB of metacommunities in global forests better than the niche complementarity mechanism. We found that abiotic and biotic factors contributed 45.39% and 54.07%, respectively, to the explained variance in AGB (R2 = 0.59), and as such, abiotic factors shaped FTD (R2 = 0.42–0.48), CWMCT (R2 = 0.33–0.36), CWMAT (R2 = 0.27–0.33) and FunDom (R2 = 0.59–0.61) through divergent effect sizes and directions. The final best‐fitted pSEM showed that FunDom increased (β = 0.49) but CWMCT (β = −0.35) and CWMAT (β = −0.11) decreased AGB (R2 = 0.52) as compared to the negligible effect of FTD (β = 0.04). This study supports the mass ratio effect, specifically the overruling role of tall‐stature or dominant trees on AGB, at a macroecological scale, and hence, suggests that a suitable species' functional strategy is important to promote carbon sequestration in forest metacommunities that underpins human well‐being. We expect that our study will advance the field of biodiversity–ecosystem functioning at a macroecological scale by using the metacommunity concept and approach. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
30. Landscape context explains changes in the functional diversity of regenerating forests better than climate or species richness.
- Author
-
Sams, M. A., Lai, H. R., Bonser, S. P., Vesk, P. A., Kooyman, R. M., Metcalfe, D. J., Morgan, J. W., Mayfield, M. M., and Enquist, Brian
- Subjects
FOREST regeneration ,FOREST biodiversity ,SPECIES diversity ,FOREST succession ,FOREST productivity ,FOREST surveys - Abstract
Aim A rich literature on forest succession provides general expectations for the steps forests go through while reassembling after disturbance, yet we still have a surprisingly poor understanding of why the outcomes of forest recovery after logging (or other disturbances) vary so extensively. In this paper, we test the hypothesis that regional species pool, system productivity, climate and landscape structure are important drivers of forest reassembly outcomes. Location Transect 1,500 km in length along the east coast of Australia. Time period Survey of 50- to 60-year-old rain forest regrowth and primary forest conducted in 2012 and 2013. Major taxa studied Rain forest plants. Methods In this study, we compare species and functional diversity patterns in pairs of remnant and regrowth ('secondary') rain forests spread across a 1,500 km climate and productivity gradient along the east coast of Australia. Our controlled natural experiment was designed to test the importance of regional species pool, system productivity, climate and landscape structure as drivers of species and functional diversity in regenerating forests. Notably, our study design allowed us to hold soil type, general forest type and disturbance history relatively constant in order to test our hypotheses effectively. Results Counter to expectations, few tested factors were strongly related to the recovery of species or functional diversity in regenerating Australian rain forests. The extent of local forest fragmentation was the only factor strongly related to differences between regrowth forests and primary forest remnants, and then only for functional diversity. We found no evidence that species diversity is a reasonable proxy for, or potential driver of, functional diversity patterns. Main conclusions Our findings suggest that forest functional recovery over decades is influenced more by regional landscape context than distinct assembly processes operating across climate and productivity gradients. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
31. Detecting ecological thresholds for biodiversity in tropical forests: Knowledge gaps and future directions.
- Author
-
Shennan‐Farpón, Yara, Visconti, Piero, and Norris, Ken
- Subjects
TROPICAL forests ,FOREST canopy gaps ,KNOWLEDGE gap theory ,FOREST management ,FOREST biodiversity ,FOREST conservation ,BIODIVERSITY - Abstract
Copyright of Biotropica is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2021
- Full Text
- View/download PDF
32. The more the merrier? Perceived forest biodiversity promotes short‐term mental health and well‐being—A multicentre study.
- Author
-
Rozario, Kevin, Oh, Rachel Rui Ying, Marselle, Melissa, Schröger, Erich, Gillerot, Loïc, Ponette, Quentin, Godbold, Douglas, Haluza, Daniela, Kilpi, Katriina, Müller, Dagmar, Roeber, Urte, Verheyen, Kris, Muys, Bart, Müller, Sandra, Shaw, Taylor, and Bonn, Aletta
- Subjects
FOREST biodiversity ,MENTAL health ,SUBJECTIVE stress ,SPECIES diversity ,STRUCTURAL equation modeling ,FOSTER children - Abstract
Copyright of People & Nature is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2024
- Full Text
- View/download PDF
33. A framework for reforming India's forest biodiversity management regime.
- Author
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Faizi, S. and Ravichandran, M.
- Subjects
FOREST biodiversity ,CONVENTION on Biological Diversity (1992) ,CONSTITUTIONS ,BIODIVERSITY ,POVERTY - Abstract
India's forest biodiversity management regime is analysed at the policy, legal and institutional levels, from the perspective of the triple objectives of the Convention on Biological Diversity and the principles of the Indian constitution. The forest biodiversity management regime has both structural and functional flaws that render it largely incapable of facing the challenge of increasing biodiversity degradation and deepening poverty among the Adivasis and other forest-dependent communities. The paper argues for the reform of the forest biodiversity management regime and offers recommendations in regard to most aspects of the regime, with a view of putting the country's conservation enterprise on a course that is effective, sustainable and inclusive, rejecting the report of the High Power Committee ( HPC) (also known as the Subramanian Committee), which is premised on easing corporate access to forests. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
34. Large‐scale, image‐based tree species mapping in a tropical forest using artificial perceptual learning.
- Author
-
Tang, Chengliang, Uriarte, María, Jin, Helen, Morton, Douglas, Zheng, Tian, and Ellison, Aaron
- Subjects
PERCEPTUAL learning ,TROPICAL forests ,FOREST mapping ,SPECIES distribution ,SPECIES ,FOREST biodiversity - Abstract
Copyright of Methods in Ecology & Evolution is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2021
- Full Text
- View/download PDF
35. Are plant community responses to wildfire contingent upon historical disturbance regimes?
- Author
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Miller, Jesse E. D., Safford, Hugh D., and Poulter, Benjamin
- Subjects
PLANT communities ,ECOLOGICAL disturbances ,FIRE management ,CONIFEROUS forests ,WILDFIRES ,SPECIES pools ,FOREST biodiversity ,PLANT diversity - Abstract
Background: Ecological disturbance is a major driver of ecosystem structure and evolutionary selection, and theory predicts that the frequency and/or intensity of disturbance should determine its effects on communities. However, adaptations of species pools to different historical disturbance regimes are rarely considered in the search for generalizable community responses to disturbance. To explore how the severity of disturbance affects plant diversity patterns, we review studies of understorey plant community responses to wildfire in conifer forests of western North America across a gradient of departure from historical fire regimes. Review findings: We find that post‐fire plant species richness may generally be maximized at disturbance severities that match the predominant historical disturbance regime in a given ecosystem. Studies that examined multiple spatial scales indicate that plant community responses to fire are likely to be scale dependent, suggesting that post‐disturbance monitoring should consider community responses at multiple scales. Synthesis: Our review highlights that consideration of historical disturbance regimes might improve the ability to predict the effects of disturbance on communities. We discuss future research needs; quantitative studies that compare community responses to fire at multiple scales across different historical fire regimes would be particularly useful. Ultimately, consideration of disturbance as a multivariate problem is likely to lead to greater inference than traditional bivariate approaches. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
36. Paired acoustic recordings and point count surveys reveal Clark's nutcracker and whitebark pine associations across Glacier National Park.
- Author
-
Kovalenko, Vladimir, Doser, Jeffrey W., Bate, Lisa J., and Six, Diana L.
- Subjects
NATIONAL parks & reserves ,FOREST plants ,PINE ,KEYSTONE species ,GLACIERS ,FOREST biodiversity ,BIRD populations - Abstract
Global declines in tree populations have led to dramatic shifts in forest ecosystem composition, biodiversity, and functioning. These changes have consequences for both forest plant and wildlife communities, particularly when declining species are involved in coevolved mutualisms. Whitebark pine (Pinus albicaulis) is a declining keystone species in western North American high‐elevation ecosystems and an obligate mutualist of Clark's nutcracker (Nucifraga columbiana), an avian seed predator and disperser. By leveraging traditional point count surveys and passive acoustic monitoring, we investigated how stand characteristics of whitebark pine in a protected area (Glacier National Park, Montana, USA) influenced occupancy and vocal activity patterns in Clark's nutcracker. Using Bayesian spatial occupancy models and generalized linear mixed models, we found that habitat use of Clark's nutcracker was primarily supported by greater cone density and increasing diameter of live whitebark pine. Additionally, we demonstrated the value of performing parallel analyses with traditional point count surveys and passive acoustic monitoring to provide multiple lines of evidence for relationships between Clark's nutcracker and whitebark pine forest characteristics. Our findings allow managers to gauge the whitebark pine conditions important for retaining high nutcracker visitation and prioritize management efforts in whitebark pine ecosystems with low nutcracker visitation. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
37. Undesirable outcomes in seasonally dry forests.
- Author
-
Stephens, Scott L, LeRoy Westerling, A, Hurteau, Matthew D, Zachariah Peery, M, Schultz, Courtney A, and Thompson, Sally
- Subjects
TROPICAL dry forests ,FOREST biodiversity ,FOREST thinning ,FOREST fire ecology ,FOREST restoration ,FOREST conversion - Abstract
Given ongoing climate change and increases in forest fuels resulting from fire suppression and exclusion, forest flammability is increasing along with the areal extent burned by large wildfires (Abatzoglou and Williams 2016). Hutto argues that the forest restoration practices discussed in our 2020 paper in I Frontiers i - namely, prescribed fire and ecologically based forest thinning, which are intended to curb large severe fires ("megafires") - will have substantial adverse effects on biodiversity, particularly in the mixed-conifer zone. More broadly, Hutto does not acknowledge the biodiversity implications of maintaining pyrodiverse landscapes in mixed-conifer forests - areas that support high species diversity in many groups of animals and plants (eg Ponisio I et al i . 2016; Tingley I et al i . 2016). [Extracted from the article]
- Published
- 2021
- Full Text
- View/download PDF
38. A reconstruction of Palaeo-Macaronesia, with particular reference to the long-term biogeography of the Atlantic island laurel forests.
- Author
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Fernández-Palacios, José María, de Nascimento, Lea, Otto, Rüdiger, Delgado, Juan D., García-del-Rey, Eduardo, Arévalo, José Ramón, and Whittaker, Robert J.
- Subjects
ONTOGENY ,BIOGEOGRAPHY ,COLONIZATION ,FOREST biodiversity - Abstract
Macaronesia is a biogeographical region comprising five Atlantic Oceanic archipelagos: the Azores, Madeira, Selvagen (Savage Islands), Canaries and Cape Verde. It has strong affinities with the Atlantic coast of the Iberian Peninsula and the north-western fringes of Africa. This paper re-evaluates the biogeographical history and relationships of Macaronesia in the light of geological evidence, which suggests that large and high islands may have been continuously available in the region for very much longer than is indicated by the maximum surface area of the oldest current island (27 Ma) - possibly for as long as 60 million years. We review this literature, attempting a sequential reconstruction of Palaeo-Macaronesia from 60 Ma to the present. We consider the implications of these geological dynamics for our understanding of the history of colonization of the present islands of Macaronesia. We also evaluate the role of these archipelagos as stepping stones and as both repositories of palaeo-endemic forms and crucibles of neo-endemic radiations of plant and animal groups. Our principal focus is on the laurel forest communities, long considered impoverished relicts of the Palaeotropical Tethyan flora. This account is therefore contextualized by reference to the long-term climatic and biogeographical history of Southern Europe and North Africa and by consideration of the implications of changes in land-sea configuration, climate and ocean circulation for Macaronesian biogeography. We go on to provide a synthesis of the more recent history of Macaronesian forests, which has involved a process of impoverishment of the native elements of the biota that has accelerated since human conquest of the islands. We comment briefly on these processes and on the contemporary status and varied conservation opportunities and threats facing these forests across the Macaronesian biogeographical region. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
39. Compromises in Data Selection in a Meta-Analysis of Biodiversity in Managed and Unmanaged Forests: Response to Halme et al.
- Author
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PAILLET, YOAN, BERGÈS, LAURENT, HJÄLTÉN, JOAKIM, ÓDOR, PÉTER, AVON, CATHERINE, BERNHARDT‐RÖMERMANN, MARKUS, BIJLSMA, RIENK‐JAN, DE BRUYN, LUC, FUHR, MARC, GRANDIN, ULF, KANKA, ROBERT, LUNDIN, LARS, LUQUE, SANDRA, MAGURA, TIBOR, MATESANZ, SILVIA, MÉSZÁROS, ILONA, SEBASTIÀ, M.‐TERESA, SCHMIDT, WOLFGANG, STANDOVÁR, TIBOR, and TÓTHMÉRÉSZ, BÉLA
- Subjects
META-analysis ,FOREST management ,FOREST biodiversity ,NATURE observation ,CONTROL groups - Abstract
In this article the authors comment on the article "Flawed Meta-Analysis of Biodiversity Effects of Forest Management," by P. Halme and colleagues. The authors stress that Halme and colleagues has overlooked the fact that they have discussed the cofounding effects and limitations of meta-analysis (MA). They add that Halme and colleagues have questioned the independence of observation, but generally accepted the comparison of a single control to several experimental groups in the MA process.
- Published
- 2010
- Full Text
- View/download PDF
40. Tree size distributions in an old-growth temperate forest.
- Author
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Xugao Wang, Zhanqing Hao, Jian Zhang, Juyu Lian, Buhang Li, Ji Ye, and Xiaolin Yao
- Subjects
TREES ,FOREST biodiversity ,BIOLOGY experiments ,DISTRIBUTION (Probability theory) ,QUANTITATIVE research ,PREDICTION models ,ECOLOGY ,ENVIRONMENTAL sciences - Abstract
Despite the wide variation in the structural characteristics in natural forests, tree size distribution show fundamental similarities that suggest general underlying principles. The metabolic ecology theory predicts the number of individual scales as the −2 power of tree diameter. The demographic equilibrium theory predicts tree size distribution starting from the relationship of size distributions with growth and mortality at demographic equilibrium. Several analytic predictions for tree size distributions are derived from the demographic equilibrium theory, based on different growth and mortality functions. In addition, some purely phenomenological functions, such as polynomial function, have been used to describe the tree size distributions. In this paper, we use the metabolic ecology theory, the demographic equilibrium theory and the polynomial function to predict the tree size distribution for both the whole community and each species in an old-growth temperate forest in northeastern China. The results show that metabolic ecology theory predictions for the scaling of tree abundance with diameter were unequivocally rejected in the studied forest. Although these predictions of demographic theory are the best models for most of the species in the temperate forest, the best models for some species ( Tilia amurensis, Quercus mongolica and Fraxinus mandshurica) are compound curves (i.e. rotated sigmoid curves), best predicted by the polynomial function. Hence, the size distributions of natural forests were unlikely to be invariant and the predictive ability of general models was limited. As a result, developing a more sophisticated theory to predict tree size distributions remains a complex, yet tantalizing, challenge. [ABSTRACT FROM AUTHOR]
- Published
- 2009
- Full Text
- View/download PDF
41. Linking flux network measurements to continental scale simulations: ecosystem carbon dioxide exchange capacity under non-water-stressed conditions.
- Author
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OWEN, KATHERINE E., TENHUNEN, JOHN, REICHSTEIN, MARKUS, WANG, QUAN, FALGE, EVA, GEYER, RALF, XIAO, XIANGMING, STOY, PAUL, AMMANN, CHRISTOF, ARAIN, ALTAF, AUBINET, MARC, AURELA, MIKA, BERNHOFER, CHRISTIAN, CHOJNICKI, BOGDAN H., GRANIER, ANDR, GRUENWALD, THOMAS, HADLEY, JULIAN, HEINESCH, BERNARD, HOLLINGER, DAVID, and KNOHL, ALEXANDER
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BIOTIC communities ,CARBON dioxide ,ANALYSIS of covariance ,FOREST biodiversity ,WETLAND ecology ,TUNDRA ecology ,ECOLOGY ,GRASSLANDS ,BOREAL Plains Ecozone - Abstract
This paper examines long-term eddy covariance data from 18 European and 17 North American and Asian forest, wetland, tundra, grassland, and cropland sites under non-water-stressed conditions with an empirical rectangular hyperbolic light response model and a single layer two light-class carboxylase-based model. Relationships according to ecosystem functional type are demonstrated between empirical and physiological parameters, suggesting linkages between easily estimated parameters and those with greater potential for process interpretation. Relatively sparse documentation of leaf area index dynamics at flux tower sites is found to be a major difficulty in model inversion and flux interpretation. Therefore, a simplification of the physiological model is carried out for a subset of European network sites with extensive ancillary data. The results from these selected sites are used to derive a new parameter and means for comparing empirical and physiologically based methods across all sites, regardless of ancillary data. The results from the European analysis are then compared with results from the other Northern Hemisphere sites and similar relationships for the simplified process-based parameter were found to hold for European, North American, and Asian temperate and boreal climate zones. This parameter is useful for bridging between flux network observations and continental scale spatial simulations of vegetation/atmosphere carbon dioxide exchange. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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42. Distribution of Vascular Plant Species Richness Along an Elevational Gradient in the Dongling Mountains, Beijing, China.
- Author
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Hai-Bao Ren, Shu-Kui Niu, Lin-Yan Zhang, and Ke-Ping Ma
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BOTANY ,GEOLOGICAL statistics ,BIODIVERSITY ,FOREST biodiversity - Abstract
Quantifying spatial patterns of species richness and determining the processes that give rise to these patterns are core problems in biodiversity theory. The aim of the present paper was to more accurately detect patterns of vascular species richness at different scales along altitudinal gradients in order to further our understanding of biodiversity patterns and to facilitate studies on relationships between biodiversity and environmental factors. Species richness patterns of total vascular plants species, including trees, shrubs, and herbs, were measured along an altitudinal gradient on one transect on a shady slope in the Dongling Mountains, near Beijing, China. Direct gradient analysis, regression analysis, and geostatistics were applied to describe the spatial patterns of species richness. We found that total vascular species richness did not exhibit a linear pattern of change with altitude, although species groups with different ecological features showed strong elevational patterns different from total species richness. In addition to total vascular plants, analysis of trees, shrubs, and herbs demonstrated remarkable hierarchical structures of species richness with altitude (i.e. patchy structures at small scales and gradients at large scales). Species richness for trees and shrubs had similar spatial characteristics at different scales, but differed from herbs. These results indicated that species groups with similar ecological features exhibit similar biodiversity patterns with altitude, and studies of biodiversity based on species groups with similar ecological properties or life forms would advance our understanding of variations in species diversity. Furthermore, the gradients or trends appeared to be due mainly to local variations in species richness means with altitude. We also found that the range of spatial scale dependencies of species richness for total vascular plants, trees, shrubs, and herbs was relatively large. Thus, to detect the relationships between species richness with environmental factors along altitudinal gradients, it was necessary to quantify the scale dependencies of environmental factors in the sampling design or when establishing non-linear models. (Managing editor: Ya-Qin Han) [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
- View/download PDF
43. Capturing long‐tailed individual tree diversity using an airborne imaging and a multi‐temporal hierarchical model.
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Weinstein, Ben G., Marconi, Sergio, Graves, Sarah J., Zare, Alina, Singh, Aditya, Bohlman, Stephanie A., Magee, Lukas, Johnson, Daniel J., Townsend, Phillip A., and White, Ethan P.
- Subjects
ENDANGERED species ,DEEP learning ,LONGLEAF pine ,FOREST biodiversity ,COMPUTER vision ,DEAD trees ,SPECIES diversity - Abstract
Measuring forest biodiversity using terrestrial surveys is expensive and can only capture common species abundance in large heterogeneous landscapes. In contrast, combining airborne imagery with computer vision can generate individual tree data at the scales of hundreds of thousands of trees. To train computer vision models, ground‐based species labels are combined with airborne reflectance data. Due to the difficulty of finding rare species in a large landscape, many classification models only include the most abundant species, leading to biased predictions at broad scales. For example, if only common species are used to train the model, this assumes that these samples are representative across the entire landscape. Extending classification models to include rare species requires targeted data collection and algorithmic improvements to overcome large data imbalances between dominant and rare taxa. We use a targeted sampling workflow to the Ordway Swisher Biological Station within the US National Ecological Observatory Network (NEON), where traditional forestry plots had identified six canopy tree species with more than 10 individuals at the site. Combining iterative model development with rare species sampling, we extend a training dataset to include 14 species. Using a multi‐temporal hierarchical model, we demonstrate the ability to include species predicted at <1% frequency in landscape without losing performance on the dominant species. The final model has over 75% accuracy for 14 species with improved rare species classification compared to 61% accuracy of a baseline deep learning model. After filtering out dead trees, we generate landscape species maps of individual crowns for over 670 000 individual trees. We find distinct patches of forest composed of rarer species at the full‐site scale, highlighting the importance of capturing species diversity in training data. We estimate the relative abundance of 14 species within the landscape and provide three measures of uncertainty to generate a range of counts for each species. For example, we estimate that the dominant species, Pinus palustris accounts for c. 28% of predicted stems, with models predicting a range of counts between 160 000 and 210 000 individuals. These maps provide the first estimates of canopy tree diversity within a NEON site to include rare species and provide a blueprint for capturing tree diversity using airborne computer vision at broad scales. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
44. Continuous forest at higher elevation plays a key role in maintaining bird and mammal diversity across an Andean coffee‐growing landscape.
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Bedoya‐Durán, M. J., Jones, H. H., Malone, K. M., and Branch, L. C.
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MAMMAL diversity ,BIRD diversity ,FOREST biodiversity ,MOUNTAIN forests ,COFFEE plantations ,TREE farms - Abstract
Shade coffee is among the most widespread and economically important crops in montane tropical regions and is considered more hospitable to wildlife than non‐shaded crops. Questions remain regarding the value of shade coffee as habitat for wildlife, however, given the historical research focus on small‐bodied and canopy species. Simultaneously, climate‐driven upslope migration of coffee crops represents an emerging threat to well‐conserved tropical montane forest at higher elevations. This study examined ground‐dwelling birds and medium‐large mammals in a shade coffee landscape of the Western Andes of Colombia. We asked the following questions: (1) How do bird and mammal occupancy, richness, and community composition change from continuous forest at higher elevations to middle‐elevation forest fragments and shade coffee? (2) Do birds and mammals differ in their response to shade coffee? (3) Do high‐elevation forests contribute to maintaining biodiversity in mid‐elevation shade coffee? We sampled birds and mammals with camera traps in middle‐elevation shade coffee plantations and forest fragments and in continuous forest further upslope. We then used a multi‐species occupancy model to correct for imperfect detection and to estimate occupancy, richness, and community composition. Shade coffee lacked ~50% of the bird and mammal species found in continuous forest, primarily large‐bodied and insectivorous birds and forest‐specialist and large‐bodied mammals. Forest fragment richness was closer to shade coffee than to continuous forest, but species composition significantly differed between coffee and both forest types. Birds in coffee plantations were generally a unique subset of disturbance‐adapted specialists, whereas mammals in coffee were mostly generalists. Distance from continuous forest was the most important landscape‐level predictor of occupancy for both taxa, suggesting that this forest plays a key role in maintaining biodiversity across the coffee landscape. Biodiversity conservation in shade coffee landscapes, therefore, will be ineffective unless linked to landscape‐level initiatives that conserve higher elevation tropical montane forest. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
45. Giants of the Amazon: How does environmental variation drive the diversity patterns of large trees?
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de Lima, Robson Borges, Görgens, Eric Bastos, da Silva, Diego Armando S., de Oliveira, Cinthia Pereira, Batista, Anderson Pedro B., Caraciolo Ferreira, Rinaldo L., Costa, Flavia R. C., Ferreira de Lima, Renato A., da Silva Aparício, Perseu, de Abreu, Jadson Coelho, da Silva, José Antônio Aleixo, Guimaraes, Aretha Franklin, Fearnside, Philip M., Sousa, Thaiane R., Perdiz, Ricardo, Higuchi, Niro, Berenguer, Erika, Resende, Angélica F., Elias, Fernando, and de Castilho, Carolina Volkmer
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FOREST biodiversity ,SPECIES diversity ,TREES ,WIND speed ,MACHINE learning ,FOREST ecology - Abstract
For more than three decades, major efforts in sampling and analyzing tree diversity in South America have focused almost exclusively on trees with stems of at least 10 and 2.5 cm diameter, showing highest species diversity in the wetter western and northern Amazon forests. By contrast, little attention has been paid to patterns and drivers of diversity in the largest canopy and emergent trees, which is surprising given these have dominant ecological functions. Here, we use a machine learning approach to quantify the importance of environmental factors and apply it to generate spatial predictions of the species diversity of all trees (dbh ≥ 10 cm) and for very large trees (dbh ≥ 70 cm) using data from 243 forest plots (108,450 trees and 2832 species) distributed across different forest types and biogeographic regions of the Brazilian Amazon. The diversity of large trees and of all trees was significantly associated with three environmental factors, but in contrasting ways across regions and forest types. Environmental variables associated with disturbances, for example, the lightning flash rate and wind speed, as well as the fraction of photosynthetically active radiation, tend to govern the diversity of large trees. Upland rainforests in the Guiana Shield and Roraima regions had a high diversity of large trees. By contrast, variables associated with resources tend to govern tree diversity in general. Places such as the province of Imeri and the northern portion of the province of Madeira stand out for their high diversity of species in general. Climatic and topographic stability and functional adaptation mechanisms promote ideal conditions for species diversity. Finally, we mapped general patterns of tree species diversity in the Brazilian Amazon, which differ substantially depending on size class. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
46. Forest activities drive diversity and structure in the tropical rainforest.
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Kenne Tene, Lacatuce, Momo Solefack, Marie Caroline, Momo Takoudjou, Stéphane, Monthe, Serge Rodrigue, and Tchokomeni, Arnaud
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RAIN forests ,FOREST management ,WOOD density ,RESTORATION ecology ,FOREST biodiversity ,SPECIES diversity ,ECOSYSTEMS ,WOODEN beams - Abstract
Copyright of African Journal of Ecology is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2023
- Full Text
- View/download PDF
47. Novel climate–fire–vegetation interactions and their influence on forest ecosystems in the western USA.
- Author
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Liang, Shuang and Hurteau, Matthew D.
- Subjects
RAIN forests ,FOREST biodiversity ,FOREST density ,TREE mortality ,ECOSYSTEMS ,SPECIES diversity ,DROUGHTS ,CLIMATE change ,OPERATIONS management - Abstract
Climate, disturbance, vegetation response and their interaction are key factors in predicting the distribution and function of ecosystems across landscapes. A range of factors, operating through different pathways, are amplifying the feedbacks in this three‐way interaction.In the western USA, the relative strength of the influence of climate versus vegetation on fire activity varies spatially, realizing a diversity of fire regimes and fire‐selected species traits under historical conditions of climate–fire–vegetation interactions.Human intervention, via land use and fire‐exclusion, has homogenized frequent‐fire‐adapted forests in terms of structure and composition. Climate change is reinforcing the homogenization directly via increasing temperatures and drought and indirectly through climate‐driven tree mortality. The net effect will be forming novel climate–fire–vegetation interactions that act to homogenize fire regimes and catalyse large‐scale forest loss.While long‐term persistence of tree species in a given location may not be possible due to directional change of climate, slowing the rate of wildfire‐driven forest cover loss and maximizing the in‐situ persistence of a diversity of species will allow forest ecosystems to respond more incrementally to changing climate and provide an opportunity for ecosystem reassembly to occur from a large pool of species.As climate continues to change, management to resist wildfire‐driven forest cover loss may hinge on reducing forest density and creating a higher level of heterogeneity to reach the resistance and resilience exhibited by pre‐fire‐exclusion forests. Management operations should better leverage disturbance while strategically deploying silvicultural treatments to increase managed and prescribed fire.Further research is needed to improve our capacity for quantifying key mechanisms and system responses involved in the climate–fire–vegetation interactions and predicting how best to allocate resources to manage for functional forests. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
48. Local and landscape scale woodland cover and diversification of agroecological practices shape butterfly communities in tropical smallholder landscapes.
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Vogel, Cassandra, Mayer, Vera, Mkandawire, Mwapi, Küstner, Georg, Kerr, Rachel Bezner, Krauss, Jochen, and Steffan‐Dewenter, Ingolf
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COMMUNITIES ,FARMERS ,FORESTS & forestry ,LIFE history theory ,BUTTERFLIES ,HABITATS ,FOREST biodiversity - Abstract
Copyright of Journal of Applied Ecology is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2023
- Full Text
- View/download PDF
49. Biodiversity in landscape mosaics: The roles of local land use and the surrounding landscape on dung beetle assemblages.
- Author
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Carvalho, Raquel L., Andresen, Ellen, Arroyo‐Rodríguez, Víctor, Anjos, Diego V., Resende, Angélica F., Vaz de Mello, Fernando, and Vasconcelos, Heraldo L.
- Subjects
DUNG beetles ,HABITATS ,FOREST biodiversity ,LAND use ,BIOTIC communities ,LANDSCAPES ,CERRADOS ,EUCALYPTUS ,PLANT diversity - Abstract
Copyright of Journal of Applied Ecology is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2023
- Full Text
- View/download PDF
50. Community form, function and phylogenetic diversity respond differently across microhabitat and recovery gradients.
- Author
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Barden, Phillip
- Subjects
COMMUNITIES ,ANIMAL ecology ,ECOLOGICAL niche ,BIOTIC communities ,AGRICULTURE ,ANT colonies ,FOREST biodiversity - Abstract
Research Highlight: Hoenle, P. O., Staab, M., Donoso, D. A., Argoti, A., & Blüthgen, N. (2023). Stratification and recovery time jointly shape ant functional reassembly in a neotropical forest. Journal of Animal Ecology, https://doi.org/10.1111/1365‐2656.13896. Space, time and abiotic variation are primary axes across investigations of community ecology and disturbed ecosystems offer tractable systems for assessing their relative impact. While recovering forests can act as isolated case studies in understanding community assembly, it is not well understood how individual microhabitats respond to recovery and ultimately shape community attributes. Hoenle et al. (2023) leverage the ubiquity and microhabitat‐specific diversity of ants across a gradient from active agricultural sites to old‐growth forest and assess how recovery and stratification together shape communities. The authors find distinct stratification across phylogenetic, functional and trait diversity as forest recovery time increases, while also recovering unique recovery trajectories contingent on trait sampling. While stratified, phylogenetic and functional diversity did not increase along this recovery gradient. Ten out of 13 sampled traits were jointly influenced by both stratification and recovery time. In contrast to intuitive predictions, a majority of trait means converged throughout the recovery period. Results highlight the multifaceted nature of recovery‐based community assembly and the capacity of multidimensional sampling to uncover surprising patterns in ecologically diverse lineages. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
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