Diversity

Multiple paternity in litters and a female’s choice of mate can significantly influence siring success and the success and survival of offspring. In captive agile antechinus (Antechinus agilis), a small, carnivorous marsupial that exhibits obligate semelparity, females choose to mate with multiple males and mate choice is profoundly influenced by genetic dissimilarity between mates, not male size. However, female mate choice has not been examined in wild agile antechinus. Our study encompassed one year in which the operational sex ratio was at parity and a second in which the ratio was female biased, and animal weight, survival and litter size were significantly decreased due to severe drought conditions. Using genetic data from 204 pouch young, we show that genetically dissimilar males sired a higher proportion of young when the sex ratio was at parity, but there was no influence of relatedness on siring success during drought conditions. Larger males sired a higher proportion of young in both years, suggesting that female choice may be partially over-ridden by male behaviour. We highlight concerns for semelparous marsupials during increasingly frequent environmental disruptions, including drought, which could influence mate choice behaviours, reproductive success, genetic health and population survival.

Active conservation management is widely applied in ecosystems affected by biological invasions, where outcomes depend primarily on how management regimes shape the vegetation structure. Grazing is a common tool in floodplain marsh meadows, but differences between grazing regimes are rarely assessed at spatial scales sensitive to internal community organization. Here, we compared the fine-scale structural diversity of two Amorpha fruticosa-invaded marsh meadows managed under contrasting conservation grazing regimes differing in livestock species, grazing intensity, and grazing dynamics. Vegetation was sampled using microcoenological methods along circular transects of contiguous 5 × 5 cm microquadrats. The fine-scale structure of the vegetation was quantified using the Juhász–Nagy spatial series framework, focusing on compositional diversity (CD) and associatum (AS), complemented by Shannon diversity. Differences between grazing regimes were evaluated using nonparametric tests complemented by effect size estimation. The patterns of species occurrence and Shannon diversity were similar between sites, indicating a similar species composition. In contrast, JNP-derived structural metrics showed consistent directional differences, with moderate to large effect sizes for selected structural indicators, despite nonsignificances. These results indicate that conservation grazing primarily influences fine-scale structural organization rather than species composition, highlighting the value of structure-oriented metrics in evaluating management effects in invaded marsh meadows.

Wetlands, frequently termed the “kidneys of the Earth,” represent one of the most vital global ecosystems. Despite their limited spatial extent, plateau wetlands function as unique ecological units that play a pivotal role in the global carbon cycle, water resource regulation, and biodiversity conservation, while exhibiting acute sensitivity to climate change. Advances in remote sensing technology—characterized by macro-scale cover-age, temporal efficiency, and non-invasive operations—have established it as a corner-stone for the dynamic monitoring and analysis of these environments. This study presents a bibliometric synthesis of 2138 publications (1982–2024) retrieved from the Web of Science Core Collection. We systematically evaluated publication trajectories, international collaborative networks, disciplinary shifts, core journals, and the spatiotemporal evolution of research hotspots. Our findings reveal an exponential growth in scholarly output alongside a marked diversification of research fields. Geographically, research is predominantly clustered around the Tibetan Plateau, flanked by the Alps and the Himalayas, with sparse representation in other regions. Future endeavors should prioritize underrepresented low-latitude and remote regions through strengthened international synergy and the integration of emerging technologies, such as UAVs and hyperspectral sensors.