Prof. Dr. Dima Chen | Ecology | Research Excellence Award

Professor at Inner Mongolia University, China

Prof. Dr. Dima Chen is a highly cited environmental and ecosystem scientist whose influential body of work spans plant diversity, soil ecology, biogeochemistry, and global change biology, contributing substantially to the understanding of how biodiversity, nutrient enrichment, and climate-related processes regulate terrestrial ecosystem functioning. With 100 published documents and an h-index of 37, supported by 5,858 citations from 4,899 citing documents, her research has produced landmark findings, including evidence that plant diversity significantly enhances productivity and soil carbon storage, as demonstrated in her widely cited PNAS article from 2018. She has advanced global understanding of microbial necromass dynamics, plant nutrient stoichiometry, and ecosystem productivity through high-impact publications in Nature Communications, PNAS, Ecology Letters, Functional Ecology, Soil Biology and Biochemistry, Geoderma, and Landscape Ecology. Her work has elucidated how nitrogen enrichment, soil acidification, and long-term nutrient inputs shape belowground communities, microbial stability, carbon cycling, and ecosystem resilience. She has revealed critical mechanisms showing that acidification-induced declines in plant diversity are mediated by below-ground community shifts, and demonstrated that soil acidification plays a stronger role than nitrogen availability in regulating soil respiration under long-term N enrichment. Her contributions also include uncovering the drivers of fungal functional group diversity on ecosystem stability, the long-term effects of continuous cropping on soil health, and the differential responses of soil bacteria to N and P additions. Through extensive collaborations, she has explored grazing legacy effects, precipitation gradients, and interactions between plants, microbes, and soil processes across diverse grassland ecosystems. Collectively, her research offers foundational insights into ecosystem stability, nutrient cycling, and soil biodiversity under global change pressures, establishing her as a leading authority in terrestrial biogeochemistry and ecological sustainability.

Featured Publications

Xu, F., Li, J., Wu, L., Zhu, B., Chen, D., & Bai, Y. (2025). Grazing legacy mediates the diverse responses of grassland multidimensional stability to resource enrichment. Agriculture, Ecosystems & Environment, 365, 109313. https://doi.org/10.1016/j.agee.2024.109313

Zhou, X., Liu, S., Wang, B., Wu, L., Wu, Y., Zhang, H., & Chen, D. (2025). Forest conversion-induced soil biota homogenization destabilizes ecosystem functions. Communications Earth & Environment, 6, Article 2909. https://doi.org/10.1038/s43247-025-02909-7

Huang, J., Wang, S., Wu, Y., Lu, X., Bai, Y., Wang, B., & Chen, D. (2025). Monoculture-experiment evidence that plant species identity regulates soil biota attributes and soil functions. CATENA, 245, 109309. https://doi.org/10.1016/j.catena.2025.109309

Yu, J., Wu, L., Wu, Y., Wang, B., Chen, H., Bai, Y., & Chen, D. (2025). Nitrogen and phosphorus enrichment differentially affect grassland ecosystem functioning via multitrophic pathways. Journal of Ecology, 113, 70105. https://doi.org/10.1111/1365-2745.70105

Wang, B., Meng, Y., Deng, S., Zhou, X., Wang, S., Wu, Y., Wu, L., Bai, Y., & Chen, D. (2025). Biodiversity of soil biota and plants stabilises ecosystem multifunctionality with increasing number of global change factors. Journal of Ecology, 113, 70054. https://doi.org/10.1111/1365-2745.70054

Lu, X., Chen, D., Xing, W., Li, Y., Chen, X., Lou, N., Ding, J., & Bai, Y. (2025). Contrasting impacts of nitrogen enrichment on soil nematode diversity in natural and managed ecosystems. Journal of Applied Ecology, 62, 70072. https://doi.org/10.1111/1365-2664.70072

Mi, J., Wang, F., Shi, J., Wang, Q., Pang, H., Yu, J., Chen, D., & Bai, Y. (2025). Contrasting trends in plant diversity and soil carbon mineralization under precipitation‐driven vegetation and soil carbon dynamics in the Mongolian Plateau. Ecology and Evolution, 15, e71806. https://doi.org/10.1002/ece3.71806

Zhang, H., Wang, B., Wu, Y., Wu, L., Yue, L., Bai, Y., & Chen, D. (2025). Plants and soil biota co‐regulate stability of ecosystem multifunctionality under multiple environmental changes. Ecology, 106(2), e4534. https://doi.org/10.1002/ecy.4534

Dr. Krzysztof Podwysocki | Biological Invasions | Young Scientist Award

State Scientific Research Institute Nature Research Centre | Lithuania

Dr. Krzysztof Podwysocki is a biologist specializing in invasion ecology, trophic ecology, and crustacean biology, with a strong research focus on understanding the mechanisms that drive the success of invasive aquatic species. He earned his Ph.D. in Biology from the University of Lodz, Poland, in 2025, where his doctoral work investigated the invasion potential of genetically distinct populations of Dikerogammarus villosus, one of Europe’s most impactful invasive amphipods. Currently based at the Nature Research Centre in Vilnius, Lithuania, he leads the project “Exoskeleton strength as a predictor of interspecific aggression and predation survivability in invasive and native amphipods,” exploring the biomechanical and ecological traits that determine competitive dominance and survival in aquatic ecosystems. His research integrates experimental ecology, functional morphology, and biogeography to examine species interactions, dispersal capacities, and environmental adaptability. Dr. Podwysocki has completed a national project on the morphological and chemical variation of D. villosus mouthparts in relation to diet and invasion history, providing key insights into how feeding morphology underpins ecological success. His collaborative experience includes international research initiatives, such as an FAO-funded project in Ghana assessing decapod diversity, and partnerships with the Nicolaus Copernicus University in Torun on behavioral and physiological studies of invasive amphipods. His work bridges fundamental and applied invasion biology, contributing to predictive models that inform biodiversity conservation and invasive species management. To date, he has published six research papers in SCI and Scopus-indexed journals, accumulating 12 citations with an h-index of 2, reflecting the growing impact of his contributions to aquatic invasion ecology. His innovative approach linking biomechanics, population genetics, and ecological performance offers new perspectives on how structural and physiological traits influence invasion dynamics, interspecific competition, and adaptation in changing environments.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Podwysocki, K., Desiderato, A., Szczerkowska-Majchrzak, E., Jermacz, Ł., Kobak, J., Bącela-Spychalska, K., & Rewicz, T. (2025). Population-dependent dispersal potential of freshwater invasive amphipods: A case study of Dikerogammarus villosus. Animal Behaviour, 213, 123355.

Jermacz, Ł., Podwysocki, K., Desiderato, A., Bącela‐Spychalska, K., Rewicz, T., Szczerkowska‐Majchrzak, E., Augustyniak, M., Gjoni, V., & Kobak, J. (2025). The same species, not the same invader: Metabolic responses of genetically distinct invasive populations of Dikerogammarus villosus and their intraspecific hybrid to environmental stresses. Journal of Animal Ecology, 94(9), e70072.

Podwysocki, K., Bącela-Spychalska, K., Desiderato, A., Rewicz, T., & Copilaş-Ciocianu, D. (2025). Environment, intraspecific lineages and geographic range jointly shape the high morphological variability of Dikerogammarus villosus (Sowinsky, 1894) (Crustacea, Amphipoda): A successful aquatic invader across Europe. Hydrobiologia, 852(1), 175–193.

Podwysocki, K., Szczerkowska‐Majchrzak, E., Jermacz, Ł., Kobak, J., Bącela‐Spychalska, K., Rewicz, T., & Desiderato, A. (2025). Predation or omnivory Two different feeding patterns displayed by two intraspecific groups of the invasive Ponto–Caspian amphipod Dikerogammarus villosus. Freshwater Biology, 70(3), 421–435.

Podwysocki, K., Pabis, K., Palero, F., Błażewicz, M., & Serigstad, B. (2024). Low abundance and high patchiness of decapod fauna sampled with van Veen grab on the West African continental margin (Gulf of Guinea, Ghana). Oceanologia, 66(2), 187–198.

Podwysocki, K., Desiderato, A., Mamos, T., Rewicz, T., Grabowski, M., Konopacka, A., & Bącela-Spychalska, K. (2024). Recent invasion of Ponto-Caspian amphipods in the Masurian Lakeland associated with human leisure activities. NeoBiota, 90, 1–22.

Mucciolo, S., Podwysocki, K., & Desiderato, A. (2023, November 2). Cold, but not for long enough: First insights into the tolerance to subzero temperatures of the invasive amphipod Dikerogammarus villosus [Preprint]. bioRxiv.

Podwysocki, K., Mamos, T., Desiderato, A., Rewicz, T., Grabowski, M., Konopacka, A., & Bącela-Spychalska, K. (2023, July 12). Mass invasion of the Ponto-Caspian amphipods in Masurian Lakeland associated with human leisure activities [Preprint]. ARPHA Preprints.

Dima Chen | Ecology | Research Excellence Award

Prof. Dr. Dima Chen | Ecology | Research Excellence Award

Professor at Inner Mongolia University, China

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Krzysztof Podwysocki | Biological Invasions | Young Scientist Award

Dr. Krzysztof Podwysocki | Biological Invasions | Young Scientist Award

State Scientific Research Institute Nature Research Centre | Lithuania

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

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