| Soil aggregates as biogeochemical reactors and implications for soil–atmosphere exchange of greenhouse gases—A concept B Wang, PE Brewer, HH Shugart, MT Lerdau, SD Allison Global change biology 25 (2), 373-385, 2019 | 103 | 2019 |
| Gap models and their individual-based relatives in the assessment of the consequences of global change HH Shugart, B Wang, R Fischer, J Ma, J Fang, X Yan, A Huth, ... Environmental Research Letters 13 (3), 033001, 2018 | 83 | 2018 |
| Soil organic and inorganic carbon contents under various land uses across a transect of continental steppes in Inner Mongolia ZP Wang, XG Han, SX Chang, B Wang, Q Yu, LY Hou, LH Li Catena 109, 110-117, 2013 | 62 | 2013 |
| Widespread production of nonmicrobial greenhouse gases in soils B Wang, M Lerdau, Y He Global Change Biology 23 (11), 4472-4482, 2017 | 55 | 2017 |
| Forests and ozone: Productivity, carbon storage and feedbacks B Wang, HH Shugart, JK Shuman, MT Lerdau Scientific Reports 6 (1), 22133, 2016 | 46 | 2016 |
| Emergent properties of organic matter decomposition by soil enzymes B Wang, SD Allison Soil Biology and Biochemistry 136, 107522, 2019 | 40 | 2019 |
| A novel diffuse fraction‐based two‐leaf light use efficiency model: An application quantifying photosynthetic seasonality across 20 AmeriFlux flux tower sites H Yan, SQ Wang, KL Yu, B Wang, Q Yu, G Bohrer, D Billesbach, R Bracho, ... Journal of Advances in Modeling Earth Systems 9 (6), 2317-2332, 2017 | 37 | 2017 |
| Growing season in situ uptake of atmospheric methane by desert soils in a semiarid region of northern China LY Hou, ZP Wang, JM Wang, B Wang, SB Zhou, LH Li Geoderma 189, 415-422, 2012 | 35 | 2012 |
| Unexpected evergreen expansion in the Siberian forest under warming hiatus Y He, J Huang, HH Shugart, X Guan, B Wang, K Yu Journal of Climate 30 (13), 5021-5039, 2017 | 30 | 2017 |
| Non-microbial methane emissions from soils B Wang, L Hou, W Liu, Z Wang Atmospheric Environment 80, 290-298, 2013 | 29 | 2013 |
| Drought legacies mediated by trait trade‐offs in soil microbiomes B Wang, SD Allison Ecosphere 12 (6), e03562, 2021 | 25 | 2021 |
| An individual-based model of forest volatile organic compound emissions—UVAFME-VOC v1. 0 B Wang, HH Shugart, MT Lerdau Ecological Modelling 350, 69-78, 2017 | 21 | 2017 |
| Sensitivity of global greenhouse gas budgets to tropospheric ozone pollution mediated by the biosphere B Wang, HH Shugart, MT Lerdau Environmental Research Letters 12 (8), 084001, 2017 | 20 | 2017 |
| Biodiversity matters in feedbacks between climate change and air quality: a study using an individual‐based model B Wang, J Shuman, HH Shugart, MT Lerdau Ecological Applications 28 (5), 1223-1231, 2018 | 19 | 2018 |
| Gap models across micro-to mega-scales of time and space: examples of Tansley’s ecosystem concept HH Shugart, A Foster, B Wang, D Druckenbrod, J Ma, M Lerdau, ... Forest Ecosystems 7, 1-18, 2020 | 17 | 2020 |
| Building bottom-up aggregate-based models (ABMs) in soil systems with a view of aggregates as biogeochemical reactors. B Wang, PE Brewer, HH Shugart, MT Lerdau, SD Allison Global change biology 25 (8), e6-e8, 2019 | 15 | 2019 |
| Complexities between plants and the atmosphere B Wang, HH Shugart, MT Lerdau Nature Geoscience 12 (9), 693-694, 2019 | 14 | 2019 |
| Dissolved methane in groundwater of domestic wells and its potential emissions in arid and semi-arid regions of Inner Mongolia, China ZP Wang, L Zhang, B Wang, LY Hou, CW Xiao, XM Zhang, XG Han Science of the Total Environment 626, 1193-1199, 2018 | 10 | 2018 |
| Enhanced warming in global dryland lakes and its drivers S Wang, Y He, S Hu, F Ji, B Wang, X Guan, S Piccolroaz Remote Sensing 14 (1), 86, 2021 | 8 | 2021 |
| Embracing fine‐root system complexity in terrestrial ecosystem modeling B Wang, ML McCormack, DM Ricciuto, X Yang, CM Iversen Global Change Biology 29 (11), 2871-2885, 2023 | 6 | 2023 |
H.H. ShugartW.W. Corcoran Professor of Environmental Sciences, University of Virginia在 virginia.edu 的电子邮件经过验证
