5,251 results on '"Tropical Forest"'
Search Results
2. Canopy temperatures strongly overestimate leaf thermal safety margins of tropical trees.
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Manzi, Olivier Jean Leonce, Wittemann, Maria, Dusenge, Mirindi Eric, Habimana, Jacques, Manishimwe, Aloysie, Mujawamariya, Myriam, Ntirugulirwa, Bonaventure, Zibera, Etienne, Tarvainen, Lasse, Nsabimana, Donat, Wallin, Göran, and Uddling, Johan
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LEAF temperature , *FOREST canopies , *TROPICAL forests , *ATMOSPHERIC temperature , *TEMPERATURE effect - Abstract
Summary: Current estimates of temperature effects on plants mostly rely on air temperature, although it can significantly deviate from leaf temperature (Tleaf). To address this, some studies have used canopy temperature (Tcan). However, Tcan fails to capture the fine‐scale variation in Tleaf among leaves and species in diverse canopies.We used infrared radiometers to study Tleaf and Tcan and how they deviate from air temperature (ΔTleaf and ΔTcan) in multispecies tropical tree plantations at three sites along an elevation and temperature gradient in Rwanda.Our results showed high Tleaf (up to c. 50°C) and ΔTleaf (on average 8–10°C and up to c. 20°C) of sun‐exposed leaves during 10:00 h–15:00 h, being close to or exceeding photosynthetic heat tolerance thresholds. These values greatly exceeded simultaneously measured values of Tcan and ΔTcan, respectively, leading to strongly overestimated leaf thermal safety margins if basing those on Tcan data. Stomatal conductance and leaf size affected Tleaf and Tcan in line with their expected influences on leaf energy balance.Our findings highlight the importance of leaf traits for leaf thermoregulation and show that monitoring Tcan is not enough to capture the peak temperatures and heat stress experienced by individual leaves of different species in tropical forest canopies. [ABSTRACT FROM AUTHOR]
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- 2024
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3. Coordination of bark and wood traits underlies forest‐to‐savanna evolutionary transitions.
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Dantas, Vinicius L., Oliveira, Luan Carlos Silva, Marcati, Carmen Regina, and Sonsin‐Oliveira, Júlia
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SAVANNAS , *CERRADOS , *TROPICAL forests , *WOOD , *BIOMES ,WOOD density - Abstract
Aim: To test the hypothesis that adaptive shifts leading to the assembly of tropical savannas involved coordination between bark and wood traits and to understand the underlying mechanisms. Location: Tropical South America. Taxon: Angiosperms (woody). Methods: We compiled data on three bark traits (total, inner and outer relative bark thickness), wood density, maximum height, five secondary xylem traits and on species' habitat information (light environment, climate, soil and fire history) for Neotropical savanna, forest and generalist species (biome groups). We tested for pairwise and multivariate associations among traits across species and if biome group and habitat conditions explained species positions along the resulting strategy axes. Results: Traits covaried along four different axes. The first axis was consistent with a trade‐off between fire (thick barks) and shade tolerance (low bark to diameter ratio, high vessel density) and contributed to differentiate the three biome groups according to the preference for shaded environments. Forest species also differed from savanna and generalist species in a separate axis by being more resource acquisitive. Maximum height and wood density did not strongly trade‐off with bark thickness, although maximum height was negatively covaried with relative outer bark thickness. Preference for shaded conditions was the main driver of variation in the two principal strategy axes, but temperature, fire and soil sand content also explained differences in plant stature between savanna and generalist species. Main Conclusions: Allocation to bark is constrained by trade‐offs with wood, opposing shade‐tolerant and acquisitive forest species to fire‐resistant and conservative savanna species. Rather than a single strategy axis, three axes are necessary to understand the functional differences among savanna, forest and generalist species. Because two of these axes are controlled by light availability, the associated traits tend to covary in space and time, but not across species. [ABSTRACT FROM AUTHOR]
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- 2024
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4. A large net carbon loss attributed to anthropogenic and natural disturbances in the Amazon Arc of Deforestation.
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Csillik, Ovidiu, Keller, Michael, Longo, Marcos, Ferraz, Antonio, Rangel Pinagé, Ekena, Bastos Görgens, Eric, Ometto, Jean P., Silgueiro, Vinicius, Brown, David, Duffy, Paul, Cushman, K. C., and Saatchi, Sassan
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FOREST degradation , *AIRBORNE lasers , *TROPICAL forests , *NET losses , *DEFORESTATION - Abstract
The Amazon forest contains globally important carbon stocks, but in recent years, atmospheric measurements suggest that it has been releasing more carbon than it has absorbed because of deforestation and forest degradation. Accurately attributing the sources of carbon loss to forest degradation and natural disturbances remains a challenge because of the difficulty of classifying disturbances and simultaneously estimating carbon changes. We used a unique, randomized, repeated, very high-resolution airborne laser scanning survey to provide a direct, detailed, and high-resolution partitioning of aboveground carbon gains and losses in the Brazilian Arc of Deforestation. Our analysis revealed that disturbances directly attributed to human activity impacted 4.2% of the survey area while windthrows and other disturbances affected 2.7% and 14.7%, respectively. Extrapolating the lidar-based statistics to the study area (544,300 km²), we found that 24.1, 24.2, and 14.5 Tg C y-1 were lost through clearing, fires, and logging, respectively. The losses due to large windthrows (21.5 Tg C y-1) and other disturbances (50.3 Tg C y-1) were partially counterbalanced by forest growth (44.1 Tg C y-1). Our high-resolution estimates demonstrated a greater loss of carbon through forest degradation than through deforestation and a net loss of carbon of 90.5 ± 16.6 Tg C y-1 for the study region attributable to both anthropogenic and natural processes. This study highlights the role of forest degradation in the carbon balance for this critical region in the Earth system. [ABSTRACT FROM AUTHOR]
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- 2024
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5. Invertebrate-Mediated Ecosystem Processes are Resilient to Disturbance Across a Land-Use Gradient in Borneo.
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Chiew, Li Yuen, Brodie, Jedediah F., Burslem, David F. R. P., Reynolds, Glen, Vairappan, Charles S., and Slade, Eleanor M.
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ECOLOGICAL disturbances , *LOGGING , *AGRICULTURE , *RAIN forests , *BIOLOGICAL extinction - Abstract
A fundamental challenge for ecologists is to evaluate the effects of anthropogenic disturbance on ecosystem processes and functions. Tropical rainforests in Borneo are biologically diverse and provide an array of ecosystem functions and services. However, these forests are being logged and converted to agricultural plantations at a rapid pace. While there are numerous studies on the impacts of these land-use changes on biodiversity, there are far fewer that investigate the consequences of forest disturbance for ecosystem functioning. We investigated the impacts of land-use change in Bornean tropical rainforests on invertebrate-mediated functions using a suite of six easily measurable processes that are linked to nutrient cycling and plant regeneration, and which can be used as indicators of the degree of disturbance and the health of the forest. We explored whether the conversion of primary forest to logged, fragmented forest or agricultural plantations altered the ecosystem processes of dung removal, predation of insect herbivores, functional activity of soil invertebrates, bioturbation, seed removal, and decomposition. Overall, ecosystem processes remained resistant to habitat change except for seed removal, which was lower in heavily logged forests and plantations than in primary forests. This suggests that, despite the loss of many species when forests are logged and converted to agriculture, ecosystem processes provided by invertebrates can remain robust across land-use gradients. [ABSTRACT FROM AUTHOR]
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- 2024
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6. An Annotated Checklist of Invasive Species of the Phyla Arthropods and Chordates in Panama.
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Rodríguez-Gavilanes, Digna, Garcés Botacio, Humberto A., Fuentes, Rogemif, Rodriguez-Scott, Louise, Añino, Yostin, López-Chong, Oscar G., and Medianero, Enrique
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INTRODUCED species , *NUMBERS of species , *HABITAT destruction , *ENVIRONMENTAL degradation , *BIOLOGICAL evolution , *BIBLIOGRAPHIC databases - Abstract
Simple Summary: Invasive species are considered a threat to the conservation of different environments. Annotating the numbers and species of these invasive organisms is critical to developing conservation strategies. This research gives background information on the types and possible origins of invasive species from the arthropod and chordate groups in Panama. The results indicated that approximately 141 exotic arthropod and chordate species have been reported as invasive species in Panama. Most of these species are believed to have been introduced via the Panama Canal Zone or accidentally. With the information compiled, this study will serve as preliminary data on the sources of introduction and will provide information for future research and plans to prevent the impact of those species. Invasive species are one of the five main causes of biodiversity loss, along with habitat destruction, overexploitation, pollution, and climate change. Numbers and species of invasive organisms represent one of the first barriers to overcome in ecological conservation programs since they are difficult to control and eradicate. Due to the lack of records of invasive exotic species in Panama, this study was necessary for identifying and registering the documented groups of invasive species of the Chordates and Arthropod groups in Panama. This exhaustive search for invasive species was carried out in different bibliographic databases, electronic portals, and scientific journals which addressed the topic at a global level. The results show that approximately 141 invasive exotic species of the Arthropoda and Chordata phyla have been reported in Panama. Of the 141 species, 50 species belonged to the Arthropoda phylum and 91 species belonged to the Chordate phylum. Panamanian economic activity could facilitate the introduction of alien species into the country. This study provides the first list of invasive exotic chordate and arthropod species reported for the Republic of Panama. [ABSTRACT FROM AUTHOR]
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- 2024
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7. Tropical forest succession increases tree taxonomic and functional richness but decreases evenness.
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van der Sande, Masha T., Poorter, Lourens, Derroire, Géraldine, do Espirito Santo, Mario Marcos, Lohbeck, Madelon, Müller, Sandra C., Bhaskar, Radika, van Breugel, Michiel, Dupuy‐Rada, Juan Manuel, Durán, Sandra M., Jakovac, Catarina C., Paz, Horacio, Rozendaal, Danaë M. A., Brancalion, Pedro, Craven, Dylan, Mora Ardilla, Francisco, Almeida, Jarcilene S., Balvanera, Patricia, Becknell, Justin, and Finegan, Bryan
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FOREST succession , *TROPICAL forests , *ENDANGERED species , *NUMBERS of species , *SOIL acidity - Abstract
Aim: Successional changes in functional diversity provide insights into community assembly by indicating how species are filtered into local communities based on their traits. Here, we assess successional changes in taxonomic and functional richness, evenness and redundancy along gradients of climate, soil pH and forest cover. Location: Neotropics. Time period: Last 0–100 years. Major taxa studied: Trees. Methods: We used 22 forest chronosequence studies and 676 plots across the Neotropics to analyse successional changes in Hill's taxonomic and functional diversity of trees, and how these successional changes vary with continental‐scale gradients in precipitation, soil pH and surrounding forest cover. Results: Taxonomic and functional richness and functional redundancy increased, while taxonomic and functional evenness decreased over time. Functional richness and evenness changed strongly when not accounting for taxonomic richness, but changed more weakly after statistically accounting for taxonomic richness, indicating that changes in functional diversity are largely driven by taxonomic richness. Nevertheless, the successional increases in functional richness when correcting for taxonomic richness may indicate that environmental heterogeneity and limiting similarity increase during succession. The taxonomically‐independent successional decreases in functional evenness may indicate that stronger filtering and competition select for dominant species with similar trait values, while many rare species and traits are added to the community. Such filtering and competition may also lead to increased functional redundancy. The changes in taxonomically‐independent functional diversity varied with resource availability and were stronger in harsh, resource‐poor environments, but weak in benign, productive environments. Hence, in resource‐poor environments, environmental filtering and facilitation are important, whereas in productive environments, weaker abiotic filtering allows for high initial functional diversity and weak successional changes. Main conclusion: We found that taxonomic and functional richness and functional redundancy increased and taxonomic and functional evenness decreased during succession, mainly caused by the increasing number of rare species and traits due to the arrival of new species and due to changing (a)biotic filters. [ABSTRACT FROM AUTHOR]
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- 2024
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8. Effects of secondary forest succession on the richness and composition of frog species in humid tropical forest.
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Garey, Michel Varajão, Zanetti, Matheus Cezar, Hartmann, Paulo Afonso, and Hartmann, Marilia Teresinha
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FOREST succession , *SECONDARY forests , *TROPICAL forests , *FOREST conservation , *COLONIZATION (Ecology) - Abstract
Our aim was to evaluate whether the richness and composition of anurans responded to the time of forest regeneration via secondary succession. We sampled the anuran community in a mosaic of areas at three different stages of secondary succession in the Atlantic Forest, southern Brazil. The anurans were collected from nine lentic ponds and from their margins up to a 50 m radius. The late secondary forest sheltered the higher species richness, followed by the primary forest. The spatial variation in species richness was related to the forest succession stage and predominance of arboreal vegetation on the pond edge. The species composition changed throughout the succession stages, regardless of the distance among areas. Along the gradient of forest succession, environmental changes have driven species distribution, limiting the occurrence of forest species and favoring the colonization of areas at the early succession stage by opportunist species. We could observe that the secondary forest succession was a determining factor in the anuran community structure, and with the advancement of the secondary succession, both richness and composition were partly restored. Thus, the conservation of secondary forests might be an efficient strategy to preserve the biodiversity in areas of the Atlantic Forest. [ABSTRACT FROM AUTHOR]
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- 2024
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9. A screening analysis of foliar terpene emissions of 36 rainforest tree species in French Guiana and their relationships with seasonality.
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Llusià, Joan, Asensio, Dolores, Sardans, Jordi, Filella, Iolanda, Peguero, Guille, Grau, Oriol, Ogaya, Romà, Urbina, Ifigenia, Gargallo-Garriga, Albert, Verryckt, Lore T., Van Langenhove, Leandro, Brechet, Laëtitia M., Courtois, Elodie, Stahl, Clément, Janssens, Ivan A., and Peñuelas, Josep
- Abstract
Key message: Inventory and seasonal variation of terpene emissions from tropical trees in French Guiana: implications for environmental and ecological roles. A limited understanding of foliar terpene emissions from different tree species is prominent in diverse tropical forests. We conducted a study in French Guiana, screening BVOC emissions from 36 tropical woody species. We focused on 32 species in the dry season and 33 in the wet season, documenting terpene emissions for the first time in some of these tree species. Our findings show that 93.8% emitted terpenes in the dry season, while only 33.3% did so in the wet season. Terpene emissions ranged from 0.01 to 80.9 μg g
−1 h−1 in the dry season and 0 to 11.7 μg g−1 h−1 in the wet season, consistent with previous reports. We identified and quantified 23 terpene compounds, including 19 monoterpenes and 4 sesquiterpenes. Additionally, 2 non-terpenoid compounds were detected: 2,2,4,6,6-pentamethylheptane (with no detected emissions in the dry season) and toluene. Among the monoterpenes, the most abundant were α-terpinolene, limonene, α-pinene, β-ocimene, and sabinene. As for sesquiterpenes, β-caryophyllene, α-caryophyllene, and α-copaene were observed during the dry season, while during the wet season, α-terpinolene predominated, followed by limonene, α-pinene, sabinene, β-caryophyllene, and α-copaene. Isoprene was detected in most of the species studied in both seasons. Sesquiterpene emissions displayed a notable phylogenetic pattern, whereas total terpenes and monoterpenes did not; however, total terpenes and monoterpenes exhibited a significant seasonal influence. Our study demonstrates that seasonality strongly influences BVOC production in tropical trees, with higher emissions in the dry season. These findings imply that various factors and conditions influence tree emissions in this tropical forest, affecting their ecological, environmental, and climatic roles, as well as the implementation of atmospheric chemistry models. [ABSTRACT FROM AUTHOR]- Published
- 2024
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10. Growth and physiological responses of Atlantic Forest tree seedlings to nitrogen and phosphorus addition.
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Cunha, João Pedro Batista Fernandes, Pimenta, José Antonio, Torezan, José Marcelo Domingues, de Oliveira, Halley Caixeta, and Stolf-Moreira, Renata
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Key Message: Atlantic Forest tree seedlings with contrasting ecological characteristics present specific growth and physiological responses to nitrogen and phosphorus addition in the soil. Nitrogen (N) and phosphorus (P) are commonly the most limiting nutrients for plant growth in tropical forests. Many of these ecosystems are exposed to increasing rates of anthropogenic nutrient deposition. This study aims to assess how five Atlantic Forest tree species respond to N and P addition to the soil. Five species with different levels of shade tolerance were subjected to nine weekly soil applications of (NH
4 )2 SO4 (84 kg N ha−1 treatment N), NaH2 PO4 (45 kg P ha−1 treatment P), both nutrients (treatment N + P), or water. Soil, foliar nutrient concentrations, and biometric and gas exchange analyses were performed. No changes in the soil pH or total N and P availability were observed in the soil after N addition, whereas P accumulated in the soil and leaves of three species after P addition. The pioneer species H. popayanensis presented increased total biomass with P and N+P treatments, while C. floribundus increased with P treatment and C. pachystachya increased with N + P treatment. N and P treatments reduced the photosynthesis of C. pachystachya and the stomatal conductance of C. pachystachya and C. floribundus. The growth rate and total biomass of C. estrellensis reduced with N and P treatments and increased with N+P treatment. Aspidosperma polyneuron presented reduced photosynthesis with N treatment, but increased total biomass with all treatments, especially N + P. The diversity of growth and physiological responses to N and P addition suggests that each species has specific nutrient requirements and uses strategies related to the niche occupied by each one. [ABSTRACT FROM AUTHOR]- Published
- 2024
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11. Wildfires and carbon budget of certain seasonally dry forests in India.
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Jhariya, Manoj Kumar, Singh, Lalji, and Toppo, Shalini
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WILDFIRES ,TROPICAL dry forests ,FOREST fires ,CLIMATE change adaptation ,NATURAL resources management ,URBANIZATION ,CARBON dioxide mitigation ,CLIMATE change mitigation ,PLANT identification - Abstract
Globally, the increasing fire events in addition to climate change due to the emission of carbon dioxide (CO2) as well as other greenhouse gases exerts huge pressure on natural resources and their management. This phenomenon is more severe in the tropical region due to increasing population, urbanization, industrialization, existing pressures, and limiting conditions. In the present study, carbon (C) stock, carbon sequestration (Cseq), CO2 mitigation potential, C budget, and C flux of the seasonally dry forest ecosystem of Chhattisgarh under the influence of wildfire in the protected area and its proximity were evaluated. Four sites namely, high fire zone (HFZ), medium fire zone (MFZ), low fire zone (LFZ), and non‐fire zone (NFZ) were selected and marked based on fire return intervals (frequency) and extent of damage. The present work is a novel approach that assesses the impact of different fire frequencies on C dynamics of fire‐affected zones. The stratified sampling technique was used within a permanent plot of 1 hectare. Forest stands on each site were analyzed using 10 randomly placed quadrats (each 10 × 10 m in size) and data were collected from each site. Across the sites higher tree density was observed at NFZ and the lowest at HFZ.Total tree biomass ranged between 116.0 and 358.4 t ha−1 across the fire regimes. Total vegetation C stock ranged between 59.1 and 169.5 t ha−1 in different sites. The C mitigation and Cseq potential ranged between 186.2 and 575.3 t ha−1, and 7.1 and 15.9 t ha−1, respectively being highest in NFZ and lowest in HFZ. The species such as Anogeissus latifolia, Buchanania lanzan, Shorea robusta, Lannea coromandelica, Lagerstroemia parviflora, Ougeinia oojeinensis, Terminalia chebula, Terminalia tomentosa are the major contributor in biomass, C stock, C mitigation, and Cseq potential in different fire regimes. Thus, our findings would be highly useful in the restoration process of fire‐affected zones through the plantation of selective plant species. Therefore, the aforementioned species could be effectively utilized while going for an afforestation/reforestation program, and will be helpful in climate change adaptation and mitigation strategies under different fire zones. [ABSTRACT FROM AUTHOR]
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- 2024
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12. Assessing Borneo's tropical forests and plantations: a multi-sensor remote sensing and geospatial MCDA approach to environmental sustainability.
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Suab, Stanley Anak, Supe, Hitesh, Louw, Albertus Stephanus, Korom, Alexius, Mohd Rakib, Mohd Rashid, Yong Bin Wong, Kemarau, Ricky Anak, and Avtar, Ram
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TROPICAL forests ,REMOTE sensing ,ENVIRONMENTAL protection ,PLANTATIONS ,PALM oil - Abstract
The assessment of environmental sustainability is of utmost importance for the forests and plantations in Borneo, given the critical need for environmental protection through the identification and mitigation of potential risks. This study was conducted to assess the environmental sustainability of tropical forest and plantations landscape, a case study in northern Sabah, Malaysian Borneo. Applications of the latest high-resolution multi-sensor remote sensing and geospatial MCDA are cost-effective and useful for large-scale environmental sustainability assessment. The land use land cover (LULC) of the study area was mapped with synergistic use of Sentinel-1 Synthetic Aperture Radar (SAR) and Sentinel-2 optical and high-resolution PlanetScope satellite imageries, resulting in overall accuracy of 87.24%. Five sustainability indicator layers: slope erosion protection, river buffer, landscape connectivity and quality, high conservation value (HCV), and water turbidity were developed from the LULC map, ancillary datasets of SRTM, and forest operation basemap with reference to standards from the Environment Protection Department (EPD), Roundtable on Sustainable Palm Oil (RSPO), and Forest Management Plan (FMP) for the analysis using multi-criteria decision analysis (MCDA) model. The results revealed that overall, the study areas are in the high sustainability category at 61%, medium at 31%, and low at only 8%. We analyzed the environmental sustainability of five land use boundaries, and the results showed that Industrial Tree Plantations (ITP) and Village Reserve are mostly in the high category. Meanwhile, oil palm plantations, rubber plantations, and forest reserve (FR) are the majority in the medium category. Both oil palm and rubber plantations are a majority in the medium class due to monocropping land use type having low landscape connectivity and quality individual sustainability indicator layer. The study presented the concept of use of multi-sensor remote sensing for LULC mapping with geospatial MCDA for environmental sustainability assessment useful to stakeholders for improving the management plan also contributing toward the progress of achieving UNSDGs and addressing REDD+. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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13. Impacts of elevated temperature and vapour pressure deficit on leaf gas exchange and plant growth across six tropical rainforest tree species.
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Middleby, Kali B., Cheesman, Alexander W., and Cernusak, Lucas A.
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GAS exchange in plants , *RAIN forests , *HIGH temperatures , *PLANT growth , *WATER efficiency , *MICROBIAL inoculants - Abstract
Summary: Elevated air temperature (Tair) and vapour pressure deficit (VPDair) significantly influence plant functioning, yet their relative impacts are difficult to disentangle.We examined the effects of elevated Tair (+6°C) and VPDair (+0.7 kPa) on the growth and physiology of six tropical tree species. Saplings were grown under well‐watered conditions in climate‐controlled glasshouses for 6 months under three treatments: (1) low Tair and low VPDair, (2) high Tair and low VPDair, and (3) high Tair and high VPDair. To assess acclimation, physiological parameters were measured at a set temperature.Warm‐grown plants grown under elevated VPDair had significantly reduced stomatal conductance and increased instantaneous water use efficiency compared to plants grown under low VPDair. Photosynthetic biochemistry and thermal tolerance (Tcrit) were unaffected by VPDair, but elevated Tair caused Jmax25 to decrease and Tcrit to increase. Sapling biomass accumulation for all species responded positively to an increase in Tair, but elevated VPDair limited growth.This study shows that stomatal limitation caused by even moderate increases in VPDair can decrease productivity and growth rates in tropical species independently from Tair and has important implications for modelling the impacts of climate change on tropical forests. [ABSTRACT FROM AUTHOR]
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- 2024
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14. Dispersal‐related plant traits are associated with range size in the Atlantic Forest.
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Petrocelli, Isis, Alzate, Adriana, Zizka, Alexander, and Onstein, Renske E.
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PLANT dispersal , *SEED dispersal by animals , *ENDANGERED species , *FOREST plants , *TROPICAL forests , *BROMELIACEAE - Abstract
Aim: The efficiency of animal‐mediated seed dispersal is threatened by the decline of animal populations, especially in tropical forests. We hypothesise that large‐seeded plants with animal‐mediated dispersal tend to have limited geographic ranges and face an increased risk of extinction due to the potential decline in seed dispersal by large‐bodied fruit‐eating and seed‐dispersing animals (frugivores). Location: Atlantic Forest, Brazil, South America. Taxon: Angiosperms. Methods: First, we collected dispersal‐related traits (dispersal syndrome, fruit size, and seed size), growth form (tree, climber, and other) and preferred vegetation type (open and closed) data for 1052 Atlantic Forest plant species. Next, we integrated these with occurrence records, extinction risk assessments, and phylogenetic trees. Finally, we performed phylogenetic generalised least squares regressions to test the direct and interactive effects of dispersal‐related traits and vegetation type on geographical range size. Results: Large‐seeded species had smaller range sizes than small‐seeded species, but only for species with animal‐mediated dispersal, not for those dispersed by abiotic mechanisms. However, plants with abiotic dispersal had overall smaller range sizes than plants with animal‐mediated dispersal. Furthermore, we found that species restricted to forests had smaller ranges than those occurring in open or mixed vegetation. Finally, at least 29% of the Atlantic Forest flora is threatened by extinction, but this was not related to plant dispersal syndromes. Main Conclusions: Large‐seeded plants with animal‐mediated dispersal may be suffering from dispersal limitation, potentially due to past and ongoing defaunation of large‐bodied frugivores, leading to small range sizes. Other factors, such as deforestation and fragmentation, will probably modulate the effects of dispersal on range size, and ultimately extinction. Our study sheds light on the relationship between plant traits, mutualistic interactions, and distribution that are key to the functioning of tropical forests. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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15. On Neotropical Fuscoporia with strigose pileus surface: Redescription and phylogenetic study of Polyporus sarcites and a new species Fuscoporia dollingeri (Hymenochaetaceae, Basidiomycota).
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Bittencourt, Felipe, Costa-Rezende, Diogo Henrique, Kout, Jiří, Góes-Neto, Aristóteles, Vlasák, Josef, and Drechsler-Santos, Elisandro Ricardo
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BASIDIOMYCOTA ,RIBOSOMAL DNA ,SPECIES ,MOLECULAR phylogeny ,TROPICAL forests - Abstract
Specimens of poroid Hymenochaetaceae with uniquely strigose pileus surfaces were collected and studied morphologically and phylogenetically (using as markers ITS and nrLSU ribosomal DNA). Detailed morphological examination showed that the specimens belong to two distinct species of Fuscoporia. Fuscoporia sarcites comb. nov., which is proposed and recorded for the first time in Guatemala, Honduras, and Venezuela, and the newly described Fuscoporia dollingeri sp. nov., which was collected several times in Florida (USA). Morphological and ecological data of these species are compared to other similar species, and an identification key of Neotropical Fuscoporia is provided. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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16. Time series methods for the analysis of soundscapes and other cyclical ecological data.
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Yoh, Natalie, Haley, Charlotte L., and Burivalova, Zuzana
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TIME series analysis ,BIG data ,PRINCIPAL components analysis ,ANTHROPOGENIC effects on nature ,BIODIVERSITY monitoring ,TROPICAL forests - Abstract
Biodiversity monitoring has entered an era of 'big data', exemplified by a near‐continuous collection of sounds, images, chemical and other signals from organisms in diverse ecosystems. Such data streams have the potential to help identify new threats, assess the effectiveness of conservation interventions, as well as generate new ecological insights. However, appropriate analytical methods are often still missing, particularly with respect to characterizing cyclical temporal patterns.Here, we present a framework for characterizing and analysing ecological responses that represent nonstationary, complex temporal patterns and demonstrate the value of using Fourier transforms to decorrelate continuous data points. In our example, we use a framework based on three approaches (spectral analysis, magnitude squared coherence, and principal component analysis) to characterize differences in tropical forest soundscapes within and across sites and seasons in Gabon.By reconstructing the underlying, cyclic behaviour of the soundscape for each site, we show how one can identify circadian patterns in acoustic activity. Soundscapes in the dry season had a complex diel cycle, requiring multiple harmonics to represent daily variation, while in the wet season there was less variance attributable to the daily cyclic patterns.Our framework can be applied to most continuous, or near‐continuous ecological data collected at a fine temporal resolution, allowing ecologists to explore patterns of temporal autocorrelation at multiple levels for biologically meaningful trends. Such methods will become indispensable as biological big data are used to understand the impact of anthropogenic pressures on biodiversity and to inform efforts to mitigate them. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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17. SOIL ORGANIC CARBON STOCKS IN NATURAL FORESTS OF DONGNAI CULTURE AND NATURE RESERVE, SOUTHEASTERN VIETNAM.
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CHAU, M. H., QUY, N. V., CUONG, L. V., HIEU, N. T., NGOAN, T. T., HUNG, D. V., HUNG, B. M., and PHU, N. V.
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SOIL moisture ,CARBON sequestration in forests ,CARBON in soils ,FOREST soils ,PEARSON correlation (Statistics) - Abstract
Even minor fluctuations in the carbon content in forest soil can significantly impact atmospheric carbon concentrations and future global climate patterns. Therefore, investigating the variation characteristics of soil organic carbon (SOC) in tropical forests is essential for comprehending the carbon sequestration potential of forest soil. This study delves into SOC dynamics within the natural forest types of Dongnai Culture and Nature Reserve in southeastern Vietnam. Nine 1000 m² plots were sampled across rich, medium, and poor forests. Soil samples were collected from depths ranging from 0 to 60 cm. The findings revealed increased SOC content from poor to rich forests, with a decrease in depth. The total carbon (C) stocks ranged from 92.20 Mg C ha
-1 in poor forests to 124.30 Mg C ha-1 in rich forests within the top 60 cm. Over 81% of soil C was concentrated in the upper 40 cm. Factors such as soil water content and slope gradient emerged as crucial determinants affecting SOC distribution. These results underscore the potential of forest management practices to augment SOC levels, thereby offering valuable insights for estimating carbon stocks in the forest ecosystems of southeastern Vietnam. [ABSTRACT FROM AUTHOR]- Published
- 2024
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18. Soil silicon dynamics following long-term litter and nutrient manipulations in a lowland tropical forest.
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Turner, Benjamin L., Bielnicka, Aleksandra W., and Kim, Pil Joo
- Abstract
Silicon (Si) has an important role in forest ecology, but controls on Si availability in tropical forests remain poorly understood. For example, it remains unclear to what extent recycling from litterfall maintains Si availability in the soil, or whether Si is influenced by the dynamics of other essential nutrients. To address this, we quantified soil Si pools in two long-term experiments in lowland tropical forest in Panama: (i) a litter manipulation experiment involving 15 years of litter addition and removal, and (ii) a fertilizer experiment involving 20 years of nitrogen, phosphorus, and potassium addition. We quantified available Si extracted in 0.01 M CaCl
2 , reactive pedogenic Si extracted in acidic ammonium oxalate, and biogenic Si extracted in hot 1% Na2 CO3 . Fifteen years of litter manipulation reduced available Si by 17% where litter was removed and increased it by 53% where litter was added. Litter addition also increased reactive pedogenic Si by 43%, but there was no change with litter removal. Twenty years of nitrogen addition reduced available Si by 22% and pedogenic Si by 25%, but there were no significant responses to the addition of phosphorus or potassium. The decline in Si with nitrogen addition appears to be related to the mobilization and leaching of available Si during soil acidification. Biogenic Si did not respond to any treatment, including long-term litter addition involving an estimated annual return of 7.64 g Si m−2 in leaf litterfall, suggesting that extraction with Na2 CO3 is unsuitable for quantifying phytoliths in clay-rich tropical soils. Overall, these findings demonstrate the importance of litterfall in maintaining Si availability in tropical forests and highlight a rarely considered consequence of atmospheric nitrogen addition and associated soil acidification for the tropical Si cycle. [ABSTRACT FROM AUTHOR]- Published
- 2024
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19. Seedling dynamics differ between canopy species and understory species in a tropical seasonal rainforest, SW China
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Libing Pan, Xiaoyang Song, Wenfu Zhang, Jie Yang, and Min Cao
- Subjects
Tropical forest ,Tree seedling ,Seasonality ,Recruitment ,Mortality ,Relative growth rate ,Biology (General) ,QH301-705.5 ,Botany ,QK1-989 - Abstract
We used 11 years of census data from 450 seedling quadrats established in a 20-ha forest dynamics plot to study seedling dynamics in tree species of a tropical seasonal rainforest in Xishuangbanna, southwestern China. We found that overall seedling recruitment rate and relative growth rate were higher in the rainy season than in the dry season. Both the recruitment rate of seedlings from canopy tree species (two species) and the relative growth rate of seedlings from understory species (nine species) were higher in the rainy season than in the dry season. However, in the rainy season, the recruitment rate of seedlings was higher for canopy tree species than for understory tree species. In addition, relative growth rate of seedlings was higher in the canopy species than in understory seedlings in the dry season. We also observed that, in both rainy and dry seasons, mortality rate of seedlings was higher for canopy species than for understory species. Overall, canopy tree species appear to have evolved a flexible strategy to adapt to the seasonal changes of a monsoon climate. In contrast, understory tree species seem to have adopted a conservative strategy. Specifically, these species mainly release seedlings in the rainy season and maintain relatively stable populations with a lower mortality rate and recruitment rate in both dry and rainy seasons. Our study suggests that canopy and understory seedling populations growing in forest understory may respond to future climate change scenarios with distinct regeneration strategies.
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- 2024
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20. New records of Psocoptera (Insecta) from Vietnam
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Dilian Georgiev, Vu Quang Manh, Nikolay Simov, Rostislav Bekchiev, Nguyen Van Hieu, and Le Thai Hoang
- Subjects
biodiversity ,indochina ,national park ,new records ,tropical forest ,Science - Abstract
This study presents novel findings on the Psocoptera (Insecta) fauna of Vietnam, contributing to the understanding of biodiversity in the region. Psocoptera specimens were collected from Tam Dao National Park during October 2023, adding 19 new species to the existing list. These discoveries include species previously unknown to Vietnam and some new to the Indochina Peninsula and continental Asia. Material examination and species identification were conducted following established methodologies, with specimens deposited at the National Museum of Natural History, Sofia, Bulgaria. The findings underscore the importance of continued research efforts in documenting and understanding the psocid fauna of Vietnam, particularly in tropical forest ecosystems.
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- 2024
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21. Turbulence regimes in the nocturnal roughness sublayer: Interaction with deep convection and tree mortality in the Amazon
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Mendonça, Anne CS, Dias-Júnior, Cléo Q, Acevedo, Otávio C, Santana, Raoni A, Costa, Felipe D, Negrón-Juarez, Robinson I, Manzi, Antônio O, Trumbore, Susan E, and Marra, Daniel Magnabosco
- Subjects
Earth Sciences ,Atmospheric Sciences ,Downdrafts ,Extreme wind speed ,Seasonality ,Tropical forest ,Turbulence regimes ,Wind disturbance ,Biological Sciences ,Agricultural and Veterinary Sciences ,Meteorology & Atmospheric Sciences ,Agricultural ,veterinary and food sciences ,Biological sciences ,Earth sciences - Abstract
We investigated the influence of seasonality and proximity to the forest canopy on nocturnal turbulence regimes in the roughness sublayer of a Central Amazon forest. Since convective systems of different scales are common in this region, we also analyzed the effect of extreme wind gusts (propagated from convective downdrafts) on the organization of the turbulence regimes, and their potential to cause the mortality of canopy trees. Our data include high-frequency winds, temperature and ozone concentration at different heights during the dry and wet seasons of 2014. In addition, we used critical wind-speed data derived from a tree-winching experiment and a modeling study conducted in the same study site. Two different turbulence regimes were identified at three heights above the canopy: a weakly stable (WS) and a very stable regime (VS). The threshold wind speeds that mark the transition between turbulence regimes were larger during the dry season and increased as a function of the height above the canopy. The turbulent fluxes of sensible heat and momentum during the WS accounted for 88% of the entire nighttime flux. Downdrafts occurred only in the WS and favored a fully coupled state of wind flow along the canopy profile. The destructive potential of winds was four times higher than on nights without downdrafts.
- Published
- 2023
22. Multiscalar Geomorphometric Generalization to Delineate Soil Textural Patterns on Amazon Watersheds Landscapes
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Araújo, Cauan Ferreira, de Oliveira Jr, Raimundo Cosme, Jr, Beldini, Troy Patrick, Hartemink, Alfred E, Series Editor, McBratney, Alex B., Series Editor, de Carvalho Junior, Waldir, editor, Saraiva Koenow Pinheiro, Helena, editor, Bacis Ceddia, Marcos, editor, and Souza Valladares, Gustavo, editor
- Published
- 2024
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23. Estimation of above-ground biomass using machine learning approaches with InSAR and LiDAR data in tropical peat swamp forest of Brunei Darussalam
- Author
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Zadbagher E, Marangoz AM, and Becek K
- Subjects
Above-Ground Biomass ,Machine Learning ,Tropical Forest ,InSAR ,Badas Peatland Forest ,Forestry ,SD1-669.5 - Abstract
Forest above-ground biomass (AGB) is one of the critical measures of forest resources. Therefore, it is crucial to identify a reliable method to estimate the AGB, especially in the tropics, where forest ecosystems are exposed to several depleting factors, including deforestation, climate change and replacing natural forests with palm oil tree plantations. We investigated the digital elevation data over the forest and uses an artificial intelligence-based approach to develop a method for quick and cost-effective assessment of the AGB. The study was conducted in the tropical peatland rainforest of Brunei Darussalam. The Shuttle Radar Topography Mission (SRTM) elevation data product and Light Detection and Ranging (LiDAR) digital elevation data were used. A linear regression (LR) model and three different machine learning (ML) algorithms, i.e., Random Forest (RF), Artificial Neural Network (ANN) and Support Vector Machines (SVM), were tested and compared. As model inputs, the SRTM elevation and distance from the peat dome’s center, a feature of a peatland swamp forest, were used. ML methods were trained on the samples taken from the LiDAR elevations. The validation results showed that the SVM was the best method to predict AGB in the study area with R2 = 0.70, RMSE = 83.65 Mg ha-1, and MAE = 74.43 Mg ha-1, which in relative terms corresponds to approximately 6% of the AGB of the forest of interests. This study demonstrated the potential of ML algorithms in AGB estimation based on canopy height derived from the InSAR-based DEM in tropical forests.
- Published
- 2024
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24. How to enhance Atlantic Forest protection? Dealing with the shortcomings of successional stages classification
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Angélica F. Resende, Felipe Rosafa Gavioli, Rafael B. Chaves, Jean Paul Metzger, Luís Fernando Guedes Pinto, Pedro R. Piffer, Pedro M. Krainovic, Matheus S. Fuza, Ricardo R. Rodrigues, Marcelo Pinho, Catherine T. Almeida, Danilo R.A. Almeida, Paulo G. Molin, Thiago S.F. Silva, and Pedro H.S. Brancalion
- Subjects
Tropical forest ,Law enforcement ,Environmental legislation ,Environmental permitting ,Offset policies ,Ecological succession ,Ecology ,QH540-549.5 ,General. Including nature conservation, geographical distribution ,QH1-199.5 - Abstract
The Atlantic Forest is a global biodiversity hotspot and a significant provider of ecosystem services to 65% of the Brazilian population. Due to being highly threatened, it is protected by federal law 11,428/2006, which establishes forest use restrictions based on native vegetation successional stages in the Atlantic Forest, with more advanced stages receiving more protection. The classification parameters are established at the state level. However, the parameters employed to classify forest fragments in different successional stages are subjective and imprecise, negatively impacting environmental permitting and related offset policies. Here, we critically assessed the major limitations in applying the 11,428/2006 law and presented alternatives for establishing a more transparent, applicable, legally safe, and effective protocol for identifying the conservation value of forest fragments. We also highlight problems related to sampling, indicators, and methodologies and present guidelines for revising the parameters for applying the Atlantic Forest law and associated state-level resolutions. We suggest an inclusive two-step analysis based on vegetation structure, forest cover history, biodiversity, ecosystem services (social), and landscape indicators. By employing a more technological approach and transferring part of the assessment responsibility to the state-level environmental agencies instead of allowing self-declared reports by landowners, our proposal focuses on the potential for evaluating ecological integrity among different successional classes by forest types. As nearly 90% of the remaining Brazilian Atlantic Forest is located within private lands, improving this legal instrument is essential for protecting the vulnerable biodiversity of this unique and threatened biome.
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- 2024
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25. Evaluation of the type of bait in catching Nymphalidae in Van Someren-Rydon traps in the National Park Yanachaga-Chemillén-Paujil sector, Pasco, Peru (Lepidoptera: Papilionoidea).
- Author
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Vega-Garrido, Yeison and Mahecha-J., Oscar
- Subjects
NYMPHALIDAE ,LEPIDOPTERA ,NATIONAL parks & reserves ,FISHING baits ,NUMBERS of species - Abstract
Copyright of SHILAP Revista de Lepidopterologia is the property of Sociedad Hispano-Luso-Americana de Lepidopterologia 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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- 2024
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26. Two decades of accelerated deforestation in Peruvian forests: a national and regional analysis (2000–2020).
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Móstiga, Maricel, Armenteras, Dolors, Vayreda, Jordi, and Retana, Javier
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FOREST reserves ,DEFORESTATION ,FOREST monitoring ,TROPICAL forests ,PROTECTED areas - Abstract
The global tree cover has kept reducing in the last two decades, mainly in tropical forests, despite the global efforts to conserve biodiversity and the ecosystem services that provides. Considering South America is the region that had the highest rate of net forest loss (2000–2020), it is crucial to understand the deforestation dynamics of each country and their regions for the evaluation of effective national conservation actions. Here, we carried out a spatiotemporal analysis of the deforestation rates from 2000 to 2020 on a national and regional scale, including the forest loss inside protected areas, in Peru. It was found that Peru lost 3.4 million ha of forest between 2000 and 2020, mainly in the Not Flooded Rainforest region. National deforestation rates accelerated, while within protected areas rates showed a very small increase. Regional deforestation rates followed the national pattern with one exception—the Coast region. Our results evidence the success of the national conservation strategy based on protected areas to avoid deforestation in all regions, except in the Andean. Moreover, the increment in deforestation rates is aligned with the growth in road infrastructure; increments in anthropic activities; and the more frequent and intense natural extreme events that vary according to the region. Therefore, it is urgent to differentiate the drivers of deforestation that operate at the national versus the regional scale, consider the inclusion of all forest types in the monitoring system, and the strengthening of policies related to land use change at all scales. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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27. Spatio-Temporal Assessment of Heterogeneity by Logging Intensity in a Federal Concession Area in the Brazilian Amazon.
- Author
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Oliveira, Afonso Henrique Moraes, Freitas, Lucas José Mazzei de, Magliano, Mauro Mendonça, Chaves, José Humberto, Dias, Carlos Tadeu dos Santos, and Martorano, Lucieta Guerreiro
- Subjects
LOGGING ,SUSTAINABILITY ,FOREST conservation ,GEOGRAPHIC information systems ,HETEROGENEITY ,FOREST surveys - Abstract
The logging intensity often does not take into account the spatial heterogeneity of the forest volume of commercial native species in the Brazilian Amazon. This study aims to evaluate the spatio-temporal heterogeneity distribution by assessing logging intensity and its effects on the volumetric stock and abundance of commercial species, with a focus on sustainable management practices. This study was conducted in the Saracá-Taquera National Forest in the Brazilian Amazon. Forest inventory data, elevation, and PlanetScope satellite images were integrated into a geographic information system. The information was aggregated into regular 1-hectare cells for the times before, during, and after logging (t0, t1, and t2). The unsupervised classification algorithm k-means with four clusters was used to analyze heterogeneity. Before logging, areas with higher commercial volumes were distant from water bodies, while areas with lower elevation had lower wood stocks. Logging intensity was generally low, concentrating on a few trees per hectare. Logging in the study area revealed a heterogeneous spatial distribution by intensifying in areas with the highest wood stocks. These results suggest that, in addition to the recommended logging intensity according to legislation, forest heterogeneity should be considered by the manager, promoting adaptive strategies to ensure the conservation of forest resources. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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28. Valuation of agricultural production and pollination services in palm trees (Arecaceae) in the Amazon forest.
- Author
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Ferreira, Jessica Cardoso, Sabino, William de Oliveira, and Giannini, Tereza Cristina
- Abstract
Palm trees (Arecaceae) are among the most important plants in the world, providing food and subsistence for various populations, especially in the Amazon region. Many of these trees depend on pollinators to produce fruits. In this study, we evaluated the pollination service values in 13 palm crops in the Brazilian Legal Amazon based on the agricultural production values of each species and their dependencies on pollinators, and we compared the values between forested and non-forested areas. We also aimed to review the scientific literature to present the most important pollinator species of those same palm crops. The total production value of the palms was estimated at US$239.9 million/year (2017), and 85% of this value was associated with the açaí fruit (Euterpe oleracea). The municipalities that had the highest production values were in the State of Pará (79.5%), considered the largest açaí producer in Brazil. The second most important crop was babassu (Attalea speciosa), with its production concentrated mainly in the State of Maranhão. Pollination services were valued at US$144.2 million/year, with açaí cultivation corresponding to 92% of this value. The forested areas were responsible for 86.4% of the total production value, with a pollination service value of US$127 million/year. The main pollinators reported were insects of the orders Hymenoptera (Apidae) and Coleoptera (especially Curculionidae). The results obtained in this study highlight the importance of pollinators to produce fruits and seeds in palm crops and reinforce the need to conserve both the pollinators and the forest, to ensure food security and the sustainable development of the region. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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29. Critical slowing down of the Amazon forest after increased drought occurrence.
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Van Passel, Johanna, Bernardino, Paulo N., Lhermitte, Stef, Rius, Bianca F., Hirota, Marina, Conradi, Timo, de Keersmaecker, Wanda, Van Meerbeek, Koenraad, and Somers, Ben
- Subjects
- *
DROUGHTS , *FOREST health , *TROPICAL forests - Abstract
Dynamic ecosystems, such as the Amazon forest, are expected to show critical slowing down behavior, or slower recovery from recurrent small perturbations, as they approach an ecological threshold to a different ecosystem state. Drought occurrences are becoming more prevalent across the Amazon, with known negative effects on forest health and functioning, but their actual role in the critical slowing down patterns still remains elusive. In this study, we evaluate the effect of trends in extreme drought occurrences on temporal autocorrelation (TAC) patterns of satellite-derived indices of vegetation activity, an indicator of slowing down, between 2001 and 2019. Differentiating between extreme drought frequency, intensity, and duration, we investigate their respective effects on the slowing down response. Our results indicate that the intensity of extreme droughts is a more important driver of slowing down than their duration, although their impacts vary across the different Amazon regions. In addition, areas with more variable precipitation are already less ecologically stable and need fewer droughts to induce slowing down. We present findings indicating that most of the Amazon region does not show an increasing trend in TAC. However, the predicted increase in extreme drought intensity and frequency could potentially transition significant portions of this ecosystem into a state with altered functionality. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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30. Increasing Fire Activity in African Tropical Forests Is Associated With Deforestation and Climate Change.
- Author
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Wimberly, M. C., Wanyama, D., Doughty, R., Peiro, H., and Crowell, S.
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- *
FOREST fires , *FIRE management , *WILDFIRES , *TROPICAL forests , *MODIS (Spectroradiometer) , *DEFORESTATION , *CLIMATE change ,EL Nino - Abstract
Fires were historically rare in tropical forests of West and Central Africa, where dense vegetation, rapid decomposition, and high moisture limit available fuels. However, increasing heat and drought combined with forest degradation and fragmentation are making these areas more susceptible to wildfires. We evaluated historical patterns of Moderate Resolution Imaging Spectroradiometer active fires in African tropical forests from 2003 to 2021. Trends were mostly positive, particularly in the northeastern and southern Congo Basin, and were concentrated in areas with high deforestation. Year‐to‐year variation of fires was synchronized with increasing temperature and vapor pressure deficit. There was anomalously high fire activity across the region during the 2015–2016 El Niño. These results contrast with the drier African woodlands and savannas, where fire has been decreasing. Further attention to fires in African tropical forests is needed to understand their global impacts on carbon dynamics and their local implications for biodiversity and human livelihoods. Plain Language Summary: Fires have historically been rare in the moist tropical forests of West and Central Africa. However, these forests are becoming more vulnerable to fire because climate change is causing higher temperatures and drought stress in the tropics. Human activities such as agriculture, logging, and mining also fragment the remaining forests and make them more susceptible to fire. We used measurements of actively burning fires from Earth observing satellites to study how the amount of fire in African tropical forests has changed from 2003 to 2021. There were several areas with strong trends of increasing fire, mainly in the Congo Basin. In contrast, there were almost no locations where fire was decreasing. The increasing fire trends occurred in locations where deforestation was occurring and climate was becoming warmer and drier. During 2015–2016 global weather patterns caused by an exceptionally strong El Niño event were associated with higher‐than‐normal fire activity throughout the tropical forests in West and Central Africa. Increasing fire is a concern because it can release greenhouse gasses into the atmosphere, reduce the amount of carbon stored in the African tropics, degrade habitats for species that live in tropical forests, and decrease the amounts of wood, food, medicine and other resources that forests provide for humans. Key Points: Active fire detections increased from 2003 to 2021 across Central Africa, with positive fire trends concentrated in the Congo BasinFire increased in areas with high deforestation and the trends were synchronized with increasing temperature and vapor pressure deficitThere was higher‐than‐usual fire activity in tropical African forests associated with the exceptionally strong 2015–2016 El Niño event [ABSTRACT FROM AUTHOR]
- Published
- 2024
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31. The stomatal response to vapor pressure deficit drives the apparent temperature response of photosynthesis in tropical forests.
- Author
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Slot, Martijn, Rifai, Sami W., Eze, Chinedu E., and Winter, Klaus
- Abstract
Summary As temperature rises, net carbon uptake in tropical forests decreases, but the underlying mechanisms are not well understood. High temperatures can limit photosynthesis directly, for example by reducing biochemical capacity, or indirectly through rising vapor pressure deficit (VPD) causing stomatal closure. To explore the independent effects of temperature and VPD on photosynthesis we analyzed photosynthesis data from the upper canopies of two tropical forests in Panama with Generalized Additive Models. Stomatal conductance and photosynthesis consistently decreased with increasing VPD, and statistically accounting for VPD increased the optimum temperature of photosynthesis (Topt) of trees from a VPD‐confounded apparent Topt of c. 30–31°C to a VPD‐independent Topt of c. 33–36°C, while for lianas no VPD‐independent Topt was reached within the measured temperature range. Trees and lianas exhibited similar temperature and VPD responses in both forests, despite 1500 mm difference in mean annual rainfall. Over ecologically relevant temperature ranges, photosynthesis in tropical forests is largely limited by indirect effects of warming, through changes in VPD, not by direct warming effects of photosynthetic biochemistry. Failing to account for VPD when determining Topt misattributes the underlying causal mechanism and thereby hinders the advancement of mechanistic understanding of global warming effects on tropical forest carbon dynamics. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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32. Intraspecific alternative phenotypes contribute to variation in species' strategies for growth.
- Author
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Worthy, Samantha J., Umaña, María N., Zhang, Caicai, Lin, Luxiang, Cao, Min, and Swenson, Nathan G.
- Subjects
- *
PHENOTYPIC plasticity , *SPECIES diversity , *PHENOTYPES , *TREE seedlings , *SPECIES - Abstract
Ecologists have historically sought to identify the mechanisms underlying the maintenance of local species diversity. High-dimensional trait-based relationships, such as alternative phenotypes, have been hypothesized as important for maintaining species diversity such that phenotypically dissimilar individuals compete less for resources but have similar performance in a given environment. The presence of alternative phenotypes has primarily been investigated at the community level, despite the importance of intraspecific variation to diversity maintenance. The aims of this research are to (1) determine the presence or absence of intraspecific alternative phenotypes in three species of tropical tree seedlings, (2) investigate if these different species use the same alternative phenotypes for growth success, and (3) evaluate how findings align with species co-occurrence patterns. We model species-specific relative growth rate with individual-level measurements of leaf mass per area (LMA) and root mass fraction (RMF), environmental data, and their interactions. We find that two of the three species have intraspecific alternative phenotypes, with individuals within species having different functional forms leading to similar growth. Interestingly, individuals within these species use the same trait combinations, high LMA × low RMF and low LMA × high RMF, in high soil nutrient environments to acquire resources for higher growth. This similarity among species in intraspecific alternative phenotypes and variables that contribute most to growth may lead to their negative spatial co-occurrence. Overall, we find that multiple traits or interactions between traits and the environment drive species-specific strategies for growth, but that individuals within species leverage this multi-dimensionality in different ways for growth success. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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33. Disturbance sensitivity shapes patterns of tree species distribution in Afrotropical lowland rainforests more than climate or soil.
- Author
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Núñez, Chase L., Clark, James S., and Poulsen, John R.
- Subjects
- *
SPECIES distribution , *ABIOTIC environment , *RAIN forests , *HUMAN ecology , *TROPICAL forests , *FOREST biodiversity - Abstract
Understanding how tropical forests respond to abiotic environmental changes is critical for preserving biodiversity, mitigating climate change, and maintaining ecosystem services in the coming century. To evaluate the relative roles of the abiotic environment and human disturbance on Central African tree community composition, we employ tree inventory data, remotely sensed climatic data, and soil nutrient data collected from 30 1‐ha plots distributed across a large‐scale observational experiment in forests that had been differently impacted by logging and hunting in northern Republic of Congo. We show that the composition of Afrotropical plant communities at this scale responds to human disturbance more than to climate, with particular sensitivities to hunting and distance to the nearest village (a proxy for other human activities, including tree‐cutting and gathering). These findings contrast neotropical predictions, highlighting the unique ecological, evolutionary, and anthropogenic history of Afrotropical forests. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
34. Estimating forest height and above-ground biomass in tropical forests using P-band TomoSAR and GEDI observations.
- Author
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Liu, Xiao, Neigh, Christopher S.R., Pardini, Matteo, and Forkel, Matthias
- Subjects
- *
SYNTHETIC aperture radar , *LIDAR , *FOREST biomass , *FOREST dynamics , *FOREST degradation , *OPTICAL radar , *ECOLOGICAL disturbances , *TROPICAL forests , *SYNTHETIC apertures - Abstract
Knowledge about the vertical structure of forests, such as forest height, above-ground biomass (AGB), and the vertical biomass distribution is important for understanding carbon allocation, structural diversity, and succession and degradation dynamics in forest ecosystems. While the use of lidar (light detection and ranging) observations is well established to investigate the vertical structure of forests, the sensitivity of P-band synthetic aperture radar tomography (TomoSAR) observations to biomass and vertical forest structure is not yet well understood. Here we use lidar observations from NASA's Global Ecosystem Dynamics Investigation (GEDI) to analyse the sensitivity of airborne P-band SAR tomography backscatter to forest height and AGB at two tropical forests in Lopé and Mondah, Gabon, Africa. We use GEDI observations to parametrize an empirical model for estimating forest height and we use a random forest model for estimating AGB from TomoSAR profiles. The validation with Land, Vegetation, and Ice Sensor (LVIS) airborne lidar data shows moderate performance for estimating forest height (RMSE = 8.2 m in Lopé and 9.8 m in Mondah) and moderate to good performance for total AGB (RMSE = 115.3 Mg/ha in Lopé and 117.8 Mg/ha in Mondah). We also estimated the vertical distribution of AGB using the corrected TomoSAR backscatter and compared it with AGB profiles derived from field observations in Mondah, which indicates potential to use TomoSAR observations for estimating vertical AGB distribution over tropical forests. However, our results demonstrate the need for targeted field observations of vertical biomass profiles in order to make full use of P-band TomoSAR to map the vertical structure of tropical forests. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
35. In situ short‐term responses of Amazonian understory plants to elevated CO2.
- Author
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Damasceno, Amanda Rayane, Garcia, Sabrina, Aleixo, Izabela Fonseca, Menezes, Juliane Cristina Gomes, Pereira, Iokanam Sales, De Kauwe, Martin G., Ferrer, Vanessa Rodrigues, Fleischer, Katrin, Grams, Thorsten E. E., Guedes, Alacimar V., Hartley, Iain Paul, Kruijt, Bart, Lugli, Laynara Figueiredo, Martins, Nathielly Pires, Norby, Richard J., Pires‐Santos, Julyane Stephanie, Portela, Bruno Takeshi Tanaka, Rammig, Anja, de Oliveira, Leonardo Ramos, and Santana, Flávia Delgado
- Subjects
- *
UNDERSTORY plants , *ATMOSPHERIC carbon dioxide , *WATER efficiency , *WATER storage , *LEAF area , *GREENHOUSES - Abstract
The response of plants to increasing atmospheric CO2 depends on the ecological context where the plants are found. Several experiments with elevated CO2 (eCO2) have been done worldwide, but the Amazonian forest understory has been neglected. As the central Amazon is limited by light and phosphorus, understanding how understory responds to eCO2 is important for foreseeing how the forest will function in the future. In the understory of a natural forest in the Central Amazon, we installed four open‐top chambers as control replicates and another four under eCO2 (+250 ppm above ambient levels). Under eCO2, we observed increases in carbon assimilation rate (67%), maximum electron transport rate (19%), quantum yield (56%), and water use efficiency (78%). We also detected an increase in leaf area (51%) and stem diameter increment (65%). Central Amazon understory responded positively to eCO2 by increasing their ability to capture and use light and the extra primary productivity was allocated to supporting more leaf and conducting tissues. The increment in leaf area while maintaining transpiration rates suggests that the understory will increase its contribution to evapotranspiration. Therefore, this forest might be less resistant in the future to extreme drought, as no reduction in transpiration rates were detected. Summary statement: The Amazonian understory plants demonstrate a remarkable response to elevated CO2, including an increase in leaf area and a higher investment in the maximum electron transport rate. These findings suggest enhanced carbon storage and water flux, stressing the important role of the understory in the overall functioning of the forest ecosystem. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
36. Divergent responses of soil bacterial and fungal community structures and functional groups to secondary succession after rubber plantation abandonment.
- Author
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Lu, Qiang, Lu, Xiaoqiang, An, Zhengfeng, Li, Jiaqi, Mao, Xia, Chen, Weiguo, Liu, Yan, and Fu, Xiangxiang
- Subjects
- *
FUNCTIONAL groups , *RUBBER plantations , *BACTERIAL communities , *SOIL microbial ecology , *COMPLEX organizations , *FOREST succession , *FUNGAL communities - Abstract
Background and aims: There is still limited knowledge regarding the dynamics of soil microbial community structures and functional groups during forest secondary succession after rubber monocultures (RP) abandonment. Methods: Bacterial and fungal communities and functions were investigated for the soil from six forest stands with three replicate plots. Selected stands included an RP, four spontaneous secondary forest stands that formed after RP abandonment at 1 (SF_1), 10 (SF_10), 20 (SF_20), and 40 (SF_40) years, as well as a primary forest (PF, approximately 100 years). Results: After RP abandonment, the alpha-diversity metrics of soil microbial communities increased during the first 40 years of succession but decreased in PF. The biomarkers Proteobacteria and Mortierellomycota increased significantly (P < 0.05) by 84% and 633% in PF, respectively, while Firmicutes showed a significant decrease of 89% in comparison with SF_1. Secondary succession increased the relative abundance of bacterial functional groups related to carbon cycling and fungal functional groups (especially ericoid mycorrhizal). Soil pH was the main edaphic factor in shaping microbial communities and functions. In addition, soil moisture and seasonal variations had direct impacts on fungal communities and bacterial functions. Conclusions: Collectively, these findings suggest that different successional trajectories occur in bacteria and fungi, owing to their divergent responses to the changes in season, soil moisture, and nutrients. Specifically, the frequent shifts in bacterial dominant phyla during succession, as well as the increased susceptibility of diversity and functional groups to season, indicate that bacteria respond more quickly to disturbances compared to fungi. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
37. Preserving large blocks of primary forest is critical to conserve forest‐dependent bird species in the Amazon.
- Author
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Marcacci, Gabriel
- Subjects
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AGROBIODIVERSITY , *AGRICULTURE , *APPLIED ecology , *BIRD communities , *TROPICAL forests , *BIRD populations - Abstract
Research Highlight: Birch, B. D. J., Mills, S. C., Socolar, J. B., Martínez‐Revelo, D. E., Haugaasen, T., & Edwards, D. P. (2024). Land sparing outperforms land sharing for Amazonian bird communities regardless of surrounding landscape context. Journal of Applied Ecology, https://doi.org/10.1111/1365‐2664.14596. Tropical forests are globally threatened by agricultural activities, including cattle farming. The land sharing versus land sparing debate has often been used as a means of addressing the trade‐off between agricultural production and biodiversity conservation, without finding a consensus within the scientific community. Moving forward, recent studies suggest combining both land allocation strategies, where wildlife‐friendly habitats within farmlands could allow movements of species within the agricultural matrix and connect natural habitats such as forest blocks, though this has rarely been demonstrated with empirical studies. In their study, Birch et al. tested how wildlife‐friendly habitats within and around cattle pastures could rescue the negative effects of converting forest to farmland on Amazon bird communities. To do so, they modelled bird species occupancies and simulated different land sharing versus land sparing scenarios with varying amount of landscape‐scale wildlife‐friendly habitat and levels of production. They found that the land sparing strategy outperformed land sharing in all scenarios, with limited benefits of landscape‐scale wildlife‐friendly habitat. This result was mostly driven by forest‐dependent species that cannot persist in farmlands. As these species are highly sensitive, preserving large blocks of primary forest is critical for their conservation. [ABSTRACT FROM AUTHOR]
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- 2024
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38. Improving well‐being and reducing deforestation in Indonesia's protected areas.
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Morgans, Courtney Leslie, Jago, Sophie, Andayani, Noviar, Linkie, Matthew, Lo, Michaela G. Y., Mumbunan, Sonny, St. John, Freya A. V., Supriatna, Jatna, Voigt, Maria, Winarni, Nurul L., Santika, Truly, and Struebig, Matthew J.
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WELL-being , *STANDARD of living , *PROTECTED areas , *DEFORESTATION , *SOCIAL cohesion - Abstract
Protected areas (PAs) are central to sustainability targets, yet few evaluations explore outcomes for both conservation and development, or the trade‐offs involved. We applied counterfactual analyses to assess the extent to which PAs maintained forest cover and influenced well‐being across >31,000 villages in Sumatra and Kalimantan, Indonesia. We examined multidimensional aspects of well‐being, tracking education, health, living standards, infrastructure, environment, and social cohesion in treatment and control villages between 2005 and 2018. Overall, PAs were effective at maintaining forest cover compared to matched controls and were not detrimental to well‐being. However, impacts were highly heterogeneous, varying by island and strictness of protection. While health, living standards, and infrastructure aspects of well‐being improved, education access, environmental conditions, and social cohesion declined. Our analysis reveals the contexts through which individual PAs succeed or fail in delivering multiple benefits and provides insights into where further on‐ground support is needed to achieve conservation and development objectives. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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39. Bark and ambrosia beetles on native and transplanted dead wood along an altitudinal tropical forest gradient.
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Weiss, Matthias, Zimová, Kateřina, Mogia, Martin, and Novotny, Vojtech
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AMBROSIA beetles ,BARK beetles ,TROPICAL forests ,BEETLES ,WOOD ,MOUNTAIN forests - 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
- 2024
- Full Text
- View/download PDF
40. Wood Basic Density in Large Trees: Impacts on Biomass Estimates in the Southwestern Brazilian Amazon.
- Author
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Romero, Flora Magdaline Benitez, de Nazaré Oliveira Novais, Thais, Jacovine, Laércio Antônio Gonçalves, Bezerra, Eronildo Braga, de Castro Lopes, Rosana Barbosa, de Holanda, Juliana Sousa, Reyna, Edi Flores, and Fearnside, Philip Martin
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WOOD density ,DENSITY ,FOREST biomass ,FOREST density ,BIOMASS ,WOOD - Abstract
Wood basic density (WD) plays a crucial role in estimating forest biomass; moreover, improving wood-density estimates is needed to reduce uncertainties in the estimates of tropical forest biomass and carbon stocks. Understanding variations in this density along the tree trunk and its impact on biomass estimates is underexplored in the literature. In this study, the vertical variability of WD was assessed along the stems of large trees that had a diameter at breast height (DBH) ≥ 50 cm from a dense ombrophilous forest on terra firme (unflooded uplands) in Acre, Brazil. A total of 224 trees were sampled, including 20 species, classified by wood type. The average WD along the stem was determined by the ratio of oven-dry mass to saturated volume. Five models were tested, including linear and nonlinear ones, to fit equations for WD, selecting the best model. The variation among species was notable, ranging from 0.288 g cm
−3 (Ceiba pentandra, L., Gaertn) to 0.825 g cm−3 (Handroanthus serratifolius, Vahl., S. Grose), with an average of 0.560 g cm−3 (±0.164, standard deviation). Significant variation was observed among individuals, such as in Schizolobium parahyba var. amazonicum (H. ex D.), which ranged from 0.305 to 0.655 g cm−3 . WD was classified as low (≤0.40 g cm−3 ), medium (0.41–0.60 g cm−3 ), and high (≥0.61 g cm−3 ). The variability in WD along the stem differs by wood type. In trees with low-density wood, density shows irregular variation but tends to increase along the stem, whereas it decreases in species with medium- and high-density wood. The variation in WD along the stem can lead to underestimations or overestimations, not only in individual trees and species but also in total stocks when estimating forest biomass. Not considering this systematic bias results in significant errors, especially in extrapolations to vast areas, such as the Amazon. [ABSTRACT FROM AUTHOR]- Published
- 2024
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41. In situ short‐term responses of Amazonian understory plants to elevated CO2.
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Damasceno, Amanda Rayane, Garcia, Sabrina, Aleixo, Izabela Fonseca, Menezes, Juliane Cristina Gomes, Pereira, Iokanam Sales, De Kauwe, Martin G., Ferrer, Vanessa Rodrigues, Fleischer, Katrin, Grams, Thorsten E. E., Guedes, Alacimar V., Hartley, Iain Paul, Kruijt, Bart, Lugli, Laynara Figueiredo, Martins, Nathielly Pires, Norby, Richard J., Pires‐Santos, Julyane Stephanie, Portela, Bruno Takeshi Tanaka, Rammig, Anja, de Oliveira, Leonardo Ramos, and Santana, Flávia Delgado
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UNDERSTORY plants ,ATMOSPHERIC carbon dioxide ,WATER efficiency ,WATER storage ,LEAF area ,GREENHOUSES - Abstract
The response of plants to increasing atmospheric CO2 depends on the ecological context where the plants are found. Several experiments with elevated CO2 (eCO2) have been done worldwide, but the Amazonian forest understory has been neglected. As the central Amazon is limited by light and phosphorus, understanding how understory responds to eCO2 is important for foreseeing how the forest will function in the future. In the understory of a natural forest in the Central Amazon, we installed four open‐top chambers as control replicates and another four under eCO2 (+250 ppm above ambient levels). Under eCO2, we observed increases in carbon assimilation rate (67%), maximum electron transport rate (19%), quantum yield (56%), and water use efficiency (78%). We also detected an increase in leaf area (51%) and stem diameter increment (65%). Central Amazon understory responded positively to eCO2 by increasing their ability to capture and use light and the extra primary productivity was allocated to supporting more leaf and conducting tissues. The increment in leaf area while maintaining transpiration rates suggests that the understory will increase its contribution to evapotranspiration. Therefore, this forest might be less resistant in the future to extreme drought, as no reduction in transpiration rates were detected. Summary statement: The Amazonian understory plants demonstrate a remarkable response to elevated CO2, including an increase in leaf area and a higher investment in the maximum electron transport rate. These findings suggest enhanced carbon storage and water flux, stressing the important role of the understory in the overall functioning of the forest ecosystem. [ABSTRACT FROM AUTHOR]
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- 2024
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42. Strong Green‐Up of Tropical Asia During the 2015/16 El Niño.
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Satriawan, T. W., Luo, X., Tian, J., Ichii, K., Juneng, L., and Kondo, M.
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- *
TROPICAL dry forests , *LEAF area index , *VEGETATION greenness , *CLIMATE change , *PLATEAUS ,EL Nino - Abstract
El Niño/Southern Oscillation (ENSO) is the main climate mode that drives the interannual variability in climate and consequently vegetation greenness. While widespread green‐up has been reported and examined in tropical America during El Niño, it remains unclear how vegetation in tropical Asia changes during the period. Here, we used four remote sensing‐based leaf area index (LAI) products to investigate changes in vegetation greenness during the 2015/16 El Niño in tropical Asia. We found a strong green‐up during the 2015/16 El Niño in tropical Asia, with its regional average LAI stronger than that of tropical America. The drivers for the green‐up vary across the region, with radiation being the main driver for continental tropical Asia, and temperature and soil water anomalies in the west and east parts of maritime tropical Asia, respectively. These findings provide important insights into the response of tropical Asia's vegetation to extreme climate anomalies. Plain Language Summary: El Niño is a climate pattern that is associated with warm and dry conditions in tropical forest regions. Significant climatic changes during El Niño thus affect vegetation greenness (i.e., growth, size of canopy, amount of leaves). While an increase in vegetation greenness has been reported in tropical America during El Niño, it remains unclear how vegetation in tropical Asia changes during the period. Here, we used satellite data to investigate changes in vegetation greenness during El Niño in 2015–2016 in tropical Asia. We found a strong increase in vegetation greenness in tropical Asia during this period. The cause of this increase in greenness varied across different parts of tropical Asia. In mainland tropical Asia, sunlight was the main driver, while in maritime Southeast Asia, temperature or soil moisture was the main driver. These findings help provide better understanding of how vegetation in tropical Asia responds to extreme climate events like El Niño. Key Points: Tropical Asia experienced strong green‐up during the 2015/16 El Niño, stronger than that of tropical AmericaIn continental tropical Asia, green‐up was mostly driven by anomalously high shortwave radiationIn maritime tropical Asia, green‐up was primarily driven either by anomalously warmer temperatures or drier soil moisture from the west to east [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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43. Ecosystem characteristics of land covers with various anthropogenic impacts in a tropical forest region of Southeast Asia.
- Author
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Sovann, Chansopheaktra, Tagesson, Torbern, Vestin, Patrik, Sakhoeun, Sakada, Kim, Soben, Kok, Sothea, and Olin, Stefan
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- *
TROPICAL forests , *ANTHROPOGENIC effects on nature , *PHOTOSYNTHETICALLY active radiation (PAR) , *LAND cover , *LEAF area index , *ECOSYSTEMS - Abstract
Given the severe anthropogenic pressure on tropical forests and the high demand for field observations of ecosystem characteristics, it is crucial to collect such data both in pristine tropical forests and in the converted deforested land cover classes. To gain insight into the ecosystem characteristics of pristine tropical forests, regrowth forests, and cashew plantations, we established an ecosystem monitoring site in Phnom Kulen National Park, Cambodia. Here, we present observed datasets of forest inventories, leaf area index, leaf traits of woody species, a fraction of intercepted photosynthetically active radiation, and edaphic and meteorological conditions. We examined how land-use and land-cover change affect species and functional diversity, stand structure, and edaphic conditions among the three land-cover classes. We further investigated relationships between diameters at breast height and tree height, estimated aboveground biomass (AGB), and explored relationships between ecosystem characteristics and AGB. We uncovered some key differences in ecosystem characteristics among the land-cover classes. We also demonstrated the feasibility of locally updating AGB estimates using power law functions. These datasets and findings can contribute to filling data gaps in tropical forest research, addressing global environmental challenges, and supporting sustainable forest management. [ABSTRACT FROM AUTHOR]
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- 2024
- Full Text
- View/download PDF
44. Criteria to set conservation priorities for natural areas in the Sinaloa region, Mexico.
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Amador-Cruz, Francisco and Bordenave, Bruno G.
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- *
PLANT habitats , *TROPICAL dry forests , *NUMBERS of species , *PLANT diversity , *SPECIES diversity - Abstract
The study aimed to identify Conservation Priority Sites (CPS) in the southern Sinaloa region, Mexico, using the Determination Index (DET) method. This method utilizes criteria such as Specific Diversity Index, Ratio of Species of Concern, Relative Scarcity Index, and Habitat Fragility Index to assess conservation stakes over wild plant species and habitats. In 2017 eight sampling sites were evaluated, two in mangroves, three in dry forests and three in semi-deciduous forests, each plot/area covers 0.12 hectares. Speciesarea curves were analyzed to quantify species diversity. A Floristic Originality Index determined the ratio of species of concern. A relative scarcity index was calculated from each type of vegetation surface area. Fragility of habitats was estimated over five levels of resilience. The results identified semi-deciduous forest sites as the highest conservation priorities due to their higher species diversity, number of species of concern, and scarce surface area. The DET method facilitated the ranking of CPS in the study area and is recommended as a valuable tool for landscape planning and conservation efforts. [ABSTRACT FROM AUTHOR]
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- 2024
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- View/download PDF
45. On the Cicadellini genus Oragua Melichar, 1926 (Hemiptera: Cicadellidae: Cicadellinae) from Mexico, with description of a new species feeding on citrus orchards in the Dry Forest of Yucatán Peninsula.
- Author
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Nah-Ramos, Shuster Alberto, Pinedo-Escatel, J. Adilson, and Blanco-Rodríguez, E.
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TROPICAL dry forests , *LEAFHOPPERS , *HEMIPTERA , *CITRUS , *SPECIES , *ORANGES , *INSECT anatomy - Abstract
A new Mexican species of Oragua Melichar, 1926 (O. balamisp. nov.) is described and illustrated from the Yucatán Peninsula based on specimens collected in Campeche (Campeche City and Castamay) and Yucatán (Ticul and Oxkutzcab) states. The new species is distinguished from other Neotropical species by the following combination of features: body color pale with orange marks on dorsum, head produced with anterior margin broadly rounded; pronotum narrower than head; forewing mottled with large orange spots; abdomen with inconspicuous apodemes; pygofer without appendages and dense long stout macrosetae over surface; aedeagus small, bulbous with one pair of twisted paraphyses with asymmetrical spines. A distribution map of available records of Oragua species recorded from southeastern Mexico is provided and a key to Mexican species is given. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
46. Spatio-temporal assessment of selective logging in Pará state, Brazil.
- Author
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de Souza, Jocemara Viana, Trondoli Matricardi, Eraldo Aparecido, Pedlowski, Marcos Antonio, Pereira Miguel, Eder, and Pereira, Reginaldo Sérgio
- Abstract
Copyright of Ciência Florestal (01039954) is the property of Ciencia Florestal 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
47. Drivers of functional diversity in small-bodied mammals across a deforestation frontier in the Southern Brazilian Amazon.
- Author
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Santos-Filho, Manoel, Ribeiro, Thalita, da Silva, Dionei José, Bogoni, Juliano A., and Palmeirim, Ana Filipa
- Abstract
Deforestation remains the most pervasive driver of biodiversity erosion across tropical forests. Understanding how species can cope with such habitat changes is particularly important along the rapidly expanding agricultural frontiers. To do so, we used a functional perspective examining small mammal responses to habitat loss, fragmentation, and degradation across the 'Arc of Deforestation' in the Southern Brazilian Amazon. Small mammals were surveyed using a combination of conventional and pitfall traps across 20 forest fragments—ranging from 42 to 4743 ha—in addition to two relatively continuous forest sites (> 7000 ha). These fragments lie isolated by a cattle pasture matrix of varying grazing intensity. We then analysed taxonomic and functional diversity patterns—represented by Simpson Diversity and Rao Quadratic entropy indices—in Generalised Linear Models containing local- to landscape-scale predictors of variation. Further, we used a functional trait composition approach based on community-weighted mean trait values to depict and predict small mammal functional variations across this degradation gradient. From a total of 847 individuals recorded belonging to 24 taxa, functional responses tended to follow the taxonomic diversity, both increasing with fragment area. The functional dimension further was promoted by low fire-related disturbance. Functional trait composition was mainly driven by habitat quality, represented by tree density, arthropod biomass, and fire-related disturbance. Our results reinforce that small forest fragments sustain depauperate small mammal assemblages both taxonomically and functionally. Accounting for habitat quality further allows for boosting the persistence across functional groups. Our findings can be used to improve the efficiency of management practices thereby maximising the multiple dimensions of small mammal diversity and their associated ecosystem services across tropical deforestation frontiers. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
48. Origin and Early Evolution of Hydrocharitaceae and the Ancestral Role of Stratiotes.
- Author
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Ulrich, Silvia, Vieira, Manuel, Coiro, Mario, Bouchal, Johannes M., Geier, Christian, Jacobs, Bonnie F., Currano, Ellen D., Lenz, Olaf K., Wilde, Volker, Zetter, Reinhard, and Grímsson, Friðgeir
- Subjects
FOSSIL pollen ,POLLEN ,FOSSILS ,MOLECULAR phylogeny ,PALEOECOLOGY ,GRAIN - Abstract
The combined morphological features of Stratiotes (Hydrocharitaceae) pollen, observed with light and electron microscopy, make it unique among all angiosperm pollen types and easy to identify. Unfortunately, the plant is (and most likely was) insect-pollinated and produces relatively few pollen grains per flower, contributing to its apparent absence in the paleopalynological record. Here, we present fossil Stratiotes pollen from the Eocene of Germany (Europe) and Kenya (Africa), representing the first reliable pre-Pleistocene pollen records of this genus worldwide and the only fossils of this family discovered so far in Africa. The fossil Stratiotes pollen grains are described and compared to pollen from a single modern species, Stratiotes aloides L. The paleophytogeographic significance and paleoecological aspects of these findings are discussed in relation to the Hydrocharitaceae fossil records and molecular phylogeny, as well as the present-day distribution patterns of its modern genera. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
49. Soil microbial community response to ectomycorrhizal dominance in diverse neotropical montane forests.
- Author
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Edwards, Joseph D., Krichels, Alexander H., Seyfried, Georgia S., Dalling, James, Kent, Angela D., and Yang, Wendy H.
- Abstract
Ectomycorrhizal (EM) associations can promote the dominance of tree species in otherwise diverse tropical forests. These EM associations between trees and their fungal mutualists have important consequences for soil organic matter cycling, yet the influence of these EM-associated effects on surrounding microbial communities is not well known, particularly in neotropical forests. We examined fungal and prokaryotic community composition in surface soil samples from mixed arbuscular mycorrhizal (AM) and ectomycorrhizal (EM) stands as well as stands dominated by EM-associated Oreomunnea mexicana (Juglandaceae) in four watersheds differing in soil fertility in the Fortuna Forest Reserve, Panama. We hypothesized that EM-dominated stands would support distinct microbial community assemblages relative to the mixed AM-EM stands due to differences in carbon and nitrogen cycling associated with the dominance of EM trees. We expected that this microbiome selection in EM-dominated stands would lead to lower overall microbial community diversity and turnover, with tighter correspondence between general fungal and prokaryotic communities. We measured fungal and prokaryotic community composition via high-throughput Illumina sequencing of the ITS2 (fungi) and 16S rRNA (prokaryotic) gene regions. We analyzed differences in alpha and beta diversity between forest stands associated with different mycorrhizal types, as well as the relative abundance of fungal functional groups and various microbial taxa. We found that fungal and prokaryotic community composition differed based on stand mycorrhizal type. There was lower prokaryotic diversity and lower relative abundance of fungal saprotrophs and pathogens in EM-dominated than AM-EM mixed stands. However, contrary to our prediction, there was lower homogeneity for fungal communities in EM-dominated stands compared to mixed AM-EM stands. Overall, we demonstrate that EM-dominated tropical forest stands have distinct soil microbiomes relative to surrounding diverse forests, suggesting that EM fungi may filter microbial functional groups in ways that could potentially influence plant performance or ecosystem function. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
50. Volume, Biomass, and Carbon Estimates for Commercial Tree Species in a Managed Forest: A Case Study in the Bolivian Amazon.
- Author
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Romero, Flora Magdaline Benitez, Ferreira Neto, José Ambrosio, da Gama e Silva, Zenobio Abel Gouvêa Perelli, Jacovine, Laércio Antônio Gonçalves, Velasquez, Santiago Ivan Sagredo, Romero, Richard Andres Benitez, Ribeiro, Sabina Cerruto, de Souza, Guilherme Silverio Aquino, Isbaex, Crismeire, Lopes, Rosana Barbosa de Castro, Ferreira, Fernanda Machado, and Fearnside, Philip Martin
- Subjects
FOREST conservation ,FOREST management ,TREE felling ,FOREST protection ,BIOMASS ,TROPICAL forests ,LOGGING - Abstract
Tropical forest management has a potential role in forest conservation if it is sustainable. This study of a forest under management in Bolivian Amazonia strongly suggests that the management project is not sustainable and that no potential changes in management would be likely to make it so. In a 216.41 ha harvested area, 278 commercial trees from 10 families, 15 genera, and 15 species were measured. The density of commercial species with diameter at breast height (DBH) ≥ 50 cm was 1.28 trees ha
−1 , and the harvestable commercial volume was 12.40 m3 ha−1 . Due to market restrictions, the actual amounts harvested were much lower: 96 trees were harvested with commercial boles totaling 2.7 m3 ha−1 . Of the total impact on biomass and carbon (above- and belowground), the logs removed from the area represented only 13.4%, while 86.6% was from losses in the forest as follows: 14.5% from the stumps, crowns, and roots of harvested trees (DBH ≥ 50 cm) plus 72.1% from the trees (DBH ≥ 10 cm) in the forest lost to roads, log landings, and skid tracks and the gap openings caused by felling the harvested trees. The estimated expenses exceeded the gross revenue of the management company (USD 519.15 ha−1 ), a fact confirmed by the company's subsequent bankruptcy. The project's low harvest intensity reduces the environmental impact per hectare but increases the impact per cubic meter of wood harvested because producing a given volume of wood requires disturbing a larger area and because more kilometers of access roads and skid tracks have to be installed to extract a given volume of wood. Because many costs are fixed regardless of harvest intensity, small harvest volume can render such projects financially unfeasible, increasing the likelihood that they will be abandoned and not provide long-term "sustainable" forest protection. However, this does not mean that higher harvest intensity results in sustainability, as other constraints apply to high-intensity projects. We conclude that conservation alternatives to maintain the forest would be more beneficial than management for timber. [ABSTRACT FROM AUTHOR]- Published
- 2024
- Full Text
- View/download PDF
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