Ant nests increase litter decomposition to mitigate the negative effect of warming in an alpine grassland ecosystem

Luo, Binyu; Huang, Mei; Wang, Wenyin; Niu, Jiahuan; Shrestha, Mani; Zeng, Haijun; Ma, Lin; Degen, A. Allan; Liao, J. Y.; Zhang, Tao; Bai, Yanfu; Zhao, Jingxue; Fraser, Lauchlan H.; Shang, Zhanhuan

doi:10.1098/rspb.2023.0613

Proc. R. Soc. B.

2023

DOI: 10.1098/rspb.2023.0613

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Ant nests increase litter decomposition to mitigate the negative effect of warming in an alpine grassland ecosystem

Binyu Luo

Mei Huang

Wenyin Wang

et al.

Abstract: Warming can decrease feeding activity of soil organisms and affect biogeochemical cycles. The ant Formica manchu is active on the nest surface and prefers a hot, dry environment; therefore, warming may provide a favourable environment for its activities. We hypothesized that F. manchu benefit from warming and mitigate the negative effects of warming on litter decomposition. We examined the effects of ant nests (nest absence versus nest presence) and warming (+1.3… Show more

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Cited by 2 publications

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UAV data and deep learning: efficient tools to map ant mounds and their ecological impact

Monsimet,

Sjögersten,

Sanders

et al. 2024

Remote Sens Ecol Conserv

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High‐resolution unoccupied aerial vehicle (UAVs) data have alleviated the mismatch between the scale of ecological processes and the scale of remotely sensed data, while machine learning and deep learning methods allow new avenues for quantification in ecology. Ant nests play key roles in ecosystem functioning, yet their distribution and effects on entire landscapes remain poorly understood, in part because they and their mounds are too small for satellite remote sensing. This research maps the distribution and impact of ant mounds in a 20 ha treeline ecotone. We evaluate the detectability from UAV imagery using a deep learning model for object detection and different combinations of RGB, thermal and multispectral sensor data. We were able to detect ant mounds in all imagery using manual detection and deep learning. However, the highest precision rates were achieved by deep learning using RGB data which has the highest spatial resolution (1.9 cm) at comparable UAV flight height. While multispectral data were outperformed for detection, it allows for novel insights into the ecology of ants and their spatial impact on vegetation productivity using the normalized difference vegetation index. Scaling up, this suggests that ant mounds quantifiably impact vegetation productivity for up to 4% of our study area and up to 8% of the Betula nana vegetation communities, the vegetation type with the highest abundance of ant mounds. Therefore, they could have an overlooked role in nutrient‐limited tundra vegetation, and on the shrubification of this habitat. Further, we show the powerful combination UAV multi‐sensor data and deep learning for efficient ecological tracking and monitoring of mound‐building ants and their spatial impact.

show abstract

UAV data and deep learning: efficient tools to map ant mounds and their ecological impact

Monsimet,

Sjögersten,

Sanders

et al. 2024

Remote Sens Ecol Conserv

View full text Add to dashboard Cite

show abstract

Warming-induced shifts on Tibetan Plateau: the overlooked ants and their ecological impacts

Liao,

Lu,

et al. 2023

Landsc Ecol

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Ant nests increase litter decomposition to mitigate the negative effect of warming in an alpine grassland ecosystem

Cited by 2 publications

References 51 publications

UAV data and deep learning: efficient tools to map ant mounds and their ecological impact

UAV data and deep learning: efficient tools to map ant mounds and their ecological impact

Warming-induced shifts on Tibetan Plateau: the overlooked ants and their ecological impacts

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