Mangrove ecosystems along Taiwan’s southwest coast have been increasingly stressed by climate change, subsidence, and sea level rise. Between 1897 and 2024, the mean annual temperature rose by 2.0 °C, and rainfall declined by 56.5 mm. Severe subsidence occurred in Taixi Township, Yunlin County (−283.0 cm, 1975–2023), where the gray/white mangrove (Avicennia marina) exhibited reduced growth and mortality. Long-term mangrove area (MA) was reconstructed using quadratic polynomials: Tougang Ditch, MATG(t) = −0.0084(t − 21.0)2 + 2.8 peaking in 1995 (R2 = 0.7274), and Budai Lagoon, MABD(t) = −0.0468(t − 12.3)2 + 26.1 peaking in 1986 (R2 = 0.782). Both sites yielded moderate fits indicating partial but less reliable reconstruction. In contrast, Jishui Estuary subsites displayed distinct maxima with stronger fits (R2 > 0.85): JS-C, MAJS-C(t) = −0.0201(t − 14.3)2 + 7.0 peaking in 1996; JS-D, MAJS-D(t) = −0.0093(t − 15.8)2 + 2.2 peaking in 1998; and JS-G, and MAJS-G(t) = −0.0077(t − 11.6)2 + 4.3 peaking in 1994. SPOT-6 satellite imagery (22 February 2025) identified 281.9 ha of mangrove and windbreak forests in Chiayi County and 896.3 ha in Tainan City. By integrating climate records, subsidence data, sea level rise, polynomial modeling, and satellite observations, this study provides a robust framework for anticipating mangrove trajectories, assessing carbon sink potential, and refining carbon credit estimates in vulnerable coastal landscapes.

The invasion of Prosopis juliflora poses a growing threat to dryland ecosystems and pastoral livelihoods across East Africa. This study presents an integrative approach that combines satellite remote sensing, machine learning, and citizen science to detect and map the spatial extent and socio-ecological impacts of Prosopis juliflora in Baringo County, Kenya. We evaluated the performance of three satellite platforms, Sentinel-1, Sentinel-2, and PlanetScope, using a Random Forest classifier trained on field collected presence–absence data and vegetation indices. Sentinel-2 outperformed the other sensors, achieving a classification accuracy of 90.65%, with key variables including the Visible Atmospherically Resistant Index (VARI), the Ratio Vegetation Index (RVI), and red-edge bands emerging as the most important predictors. Through Participatory GIS (PGIS), a citizen-science based approach, we engaged gender-disaggregated community groups to capture local perceptions of invasion hotspots and blocked access to grazing routes and water sources, enhancing contextual understanding and validating model outputs. The comparison of satellite-derived maps and PGIS outputs revealed strong spatial congruence, particularly along water bodies, roads, and croplands. Our findings demonstrate the potential of combining Earth observation and citizen science to generate actionable knowledge for managing invasive species in data scarce dryland environments. This hybrid framework supports inclusive and spatially targeted interventions for rangeland restoration and ecosystem resilience.

Several honeybee species can coexist within a given geographical region; however, their interactions and the extent to which their foraging niches overlap remain poorly understood. To address this gap, we assessed niche overlap among four honeybee species (Apis cerana, Apis dorsata, Apis florea and Apis mellifera) in West Bengal, India, using palynological analysis of corbicular pollen loads. The monofloral composition of individual corbicular loads indicated flower constancy in all species. A wide range of pollen types was recorded for each species, confirming their polylectic foraging behaviour. Although the level of pollen diversity in their diet did not differ among species, it did vary seasonally. Vital pollen sources (including Acacia auriculiformis, Borassus flabellifer, Brassica juncea, Bridelia retusa, Cocos nucifera, Coriandrum sativum, Eucalyptus tereticornis, Lannea coromandelica and Sesamum indicum) were shared by all four species, and their pollen-foraging niches showed significant overlap in every season. Considering the floral traits of the plants visited, all honeybee species behaved as generalist flower visitors. This study quantifies foraging niche overlap among honeybee species and identifies common floral resources shared by the exotic Apis mellifera and native honeybees. Such insights will assist in honeybee management, biodiversity conservation, and the enhancement of ecosystem services and stability.

The authors would like to make the following corrections to the published paper [...]

Knowledge of weed community structure in agricultural systems is important for sustainable management, especially for evaluating the effects of different herbicides on soybean–corn succession crops. This study evaluated, over two crop seasons, weed community structure in response to chemical weed management strategies for soybean–corn succession in Brazil’s Triângulo Mineiro region. Phytosociological surveys of the weed community were conducted during harvest periods throughout the experimental phase, with referenced data for generating spatial distribution maps of biomass and density of the main present species. The survey identified 33 weed species, predominantly from the Poaceae and Asteraceae families. Regardless of the management system, the total weed biomass was lower in corn crops compared to soybean crops. In management systems using six different herbicides, the IVI of Commelina benghalensis was the lowest due to greater diversification of herbicide mechanisms of action. The results demonstrate that chemical weed management strategies strongly influence weed community structure, with significant effects on weed community structure and evenness in intensive agricultural regions. These changes also have implications for resistance management.

Coastal lagoons are highly vulnerable to human and climatic pressures, yet long-term ecological changes remain poorly quantified. We analyzed four decades (1980–2020) of data from fisheries from six lagoons in the Amvrakikos Gulf, Greece, using ecological indicators to assess trophic structure, exploitation status, and ecosystem responses. Cluster analysis of species level fishery production revealed a distinct temporal regime shift in the late 1990s–early 2000s, reflecting a major reorganization of species contributions to total yield. Mean total yield (Y), showed a consistent declining trend across lagoons, ranging from 2.7 ± 2.0 to 7.2 ± 5.0 t km−2. Primary Production Required (PPR) declined (0.8–1.5 × 1010g C km−2 yr−1), while Mean Temperature of the Catch (MTC) increased in five lagoons (19.0–21.4 °C) and remained stable in one (20.0 ± 0.9 °C). Pelagic to demersal (P/D) ratios generally decreased (0.09–1.26), and Q-90 values were variable (0.8–2.2), highlighting site specific ecological dynamics. Short term yield predictions for 2021–2025 ranged from 0.78 to 6.75 t km−2, remaining comparable to recent historical levels, while the estimated carrying capacities varied from 1.79 to 9.11 t km−2, reflecting contrasting exploitation states among lagoons. These results demonstrate that multi-indicator, fishery-based analyses provide a robust framework for quantifying ecological change and guiding adaptive management in lagoon ecosystems.

Chestnut is an important economic plant for ecology and farmers in mountainous areas in China. We conducted surveys and experiments to assess the economic value of the pollination service provided by insect pollinators for chestnuts via the Toolkit for Ecosystem Service Site-based Assessment (TESSA) in Bapeng Village, Wangmo County, Guizhou Province of China. We applied three methods presented by TESSA, the desk-based method, the field survey method, and the exclusion experiment, for the assessment. The resulting pollination values for the three methods are (1) CNY 3712.5∙ha−1∙yr−1 in the assessment site and an average of CNY 1386∙ha−1∙yr−1 with buffer zones included for the desk-based method; (2) CNY 3712.5∙ha−1∙yr−1 in the assessment site and an average of CNY 1124∙ha−1∙yr−1 with buffer zones included for the field survey method; and (3) CNY 4158∙ha−1∙yr−1 in the assessment site and an average of CNY 1485∙ha−1∙yr−1 with buffer zones included for the exclusion experiment method. The total value of chestnut pollination of the Bapeng Village ranges from CNY 311,943 yr−1 to CNY 404,663 yr−1. The chestnut pollination of the village is substantially insufficient. This could be the result of the decrease in diversity and uneven distribution of insect pollinators which, per se, are caused by the lack of larval hosts for those pollinators.

In northwestern Ecuador, where more than 90% of the original forest cover has been lost, it is unknown how soil chemistry influences bat diversity. This study evaluated bat diversity, non-herbaceous plant community structure, and soil nutrients in 30 plots distributed across crops on two farms separated by 32 km. Soil analyses revealed variations in organic matter and nutrients, identifying calcium, magnesium, zinc and iron as the most influential. A total of 1662 individuals of 24 non-herbaceous plant species and 193 individuals of 16 bat species were recorded, dominated by frugivorous and nectarivorous guilds. Generalized linear mixed models showed significant relationships between bat diversity indices and soil nutrients. These elements improve tree growth, fruiting, and flowering, which increases the quality and availability of food resources for bats. In return, these mammals provide key ecosystem services such as pollination, seed dispersal, and insect control. Our findings highlight that soil chemistry indirectly regulates bat communities by influencing vegetation structure and resource availability. This integrated approach underscores the importance of soil–plant–animal interactions in tropical agricultural landscapes, offering practical guidance.

Rivers and their associated landscapes—floodplains, wetlands, and oxbow lakes—represent some of the most dynamic and biologically rich ecosystems on Earth [...]

The northern Brazilian Amazon has ecological transition ecosystems with high diversity and endemism of tree species and few botanical collections. We evaluated the phytosociology between Dense Ombrophilous Forest (Ds) and Forested Campinarana (Ld) within Anauá National Forest in Roraima, Brazil. A total of 14,730 trees with a DBH ≥ 10 cm were inventoried across 30 hectares (ha), distributed among 55 botanical families, 183 genera, 386 species, and 123 undetermined trees. Ten hyperdominant tree families accounted for 69% of the sampled trees and 65% of the stored forest carbon (102.9 ± 5.0 Mg ha−1), like Arecaceae (2555 trees), Fabaceae (1738 trees), and Sapotaceae (1311 trees). Ten hyperdominant species accounted for 32% of the sampled individuals and 32% of the stored forest carbon (46.3 ± 3.8 Mg ha−1), like Euterpe precatoria (1151 trees), Pouteria macrophylla (561 trees) and Inga alba (574 trees). Anauá National Forest has great potential for sustainable multiple-use forest management through forest concessions; however, tree mortality due to natural causes and anthropogenic actions (deforestation, illegal selective logging, and forest fires) was considered high (7%) for tropical forests in the Amazon.