Fire-severity effects on plant–fungal interactions after a novel tundra wildfire disturbance: implications for arctic shrub and tree migration RE Hewitt, TN Hollingsworth, F Stuart Chapin III, D Lee Taylor BMC ecology 16, 1-11, 2016 | 1185 | 2016 |
Fire as a fundamental ecological process: Research advances and frontiers KK McLauchlan, PE Higuera, J Miesel, BM Rogers, J Schweitzer, ... Journal of Ecology 108 (5), 2047-2069, 2020 | 476 | 2020 |
Early stage litter decomposition across biomes I Djukic, S Kepfer-Rojas, IK Schmidt, KS Larsen, C Beier, B Berg, ... Science of the total environment 628, 1369-1394, 2018 | 280 | 2018 |
Tundra Trait Team: A database of plant traits spanning the tundra biome AD Bjorkman, IH Myers‐Smith, SC Elmendorf, S Normand, HJD Thomas, ... Global Ecology and Biogeography 27 (12), 1402-1411, 2018 | 88 | 2018 |
Below‐ground plant traits influence tundra plant acquisition of newly thawed permafrost nitrogen RE Hewitt, DL Taylor, H Genet, AD McGuire, MC Mack Journal of Ecology 107 (2), 950-962, 2019 | 77 | 2019 |
Sufficient conditions for rapid range expansion of a boreal conifer RJ Dial, CT Maher, RE Hewitt, PF Sullivan Nature 608 (7923), 546-551, 2022 | 72 | 2022 |
Microbiome assembly in thawing permafrost and its feedbacks to climate JG Ernakovich, RA Barbato, VI Rich, C Schädel, RE Hewitt, SJ Doherty, ... Global Change Biology 28 (17), 5007-5026, 2022 | 57 | 2022 |
Allelopathic effects of Ceratiola ericoides (Empetraceae) on germination and survival of six Florida scrub species RE Hewitt, ES Menges Plant Ecology 198, 47-59, 2008 | 43 | 2008 |
Resilience of Arctic mycorrhizal fungal communities after wildfire facilitated by resprouting shrubs RE Hewitt, E Bent, TN Hollingsworth, FS Chapin III, DL Taylor Ecoscience 20 (3), 296-310, 2013 | 41 | 2013 |
Mycobiont contribution to tundra plant acquisition of permafrost‐derived nitrogen RE Hewitt, MR DeVan, IV Lagutina, H Genet, AD McGuire, DL Taylor, ... New Phytologist 226 (1), 126-141, 2020 | 37 | 2020 |
The potential for mycobiont sharing between shrubs and seedlings to facilitate tree establishment after wildfire at Alaska arctic treeline RE Hewitt, FS Chapin III, TN Hollingsworth, DL Taylor Molecular Ecology 26 (14), 3826-3838, 2017 | 33 | 2017 |
The climate envelope of Alaska's northern treelines: implications for controlling factors and future treeline advance CT Maher, RJ Dial, NJ Pastick, RE Hewitt, MT Jorgenson, PF Sullivan Ecography 44 (11), 1710-1722, 2021 | 22 | 2021 |
Poor nutrition as a potential cause of divergent tree growth near the Arctic treeline in northern Alaska SBZ Ellison, PF Sullivan, SMP Cahoon, RE Hewitt Ecology 100 (12), e02878, 2019 | 20 | 2019 |
Variable retention harvesting influences belowground plant-fungal interactions of Nothofagus pumilio seedlings in forests of southern Patagonia RE Hewitt, DL Taylor, TN Hollingsworth, CB Anderson, GM Pastur PeerJ 6, e5008, 2018 | 13 | 2018 |
Getting to the root of the matter: landscape implications of plant-fungal interactions for tree migration in Alaska RE Hewitt, AP Bennett, AL Breen, TN Hollingsworth, DL Taylor, ... Landscape ecology 31, 895-911, 2016 | 13 | 2016 |
Does fire always accelerate shrub expansion in Arctic tundra? Examining a novel grass-dominated successional trajectory on the Seward Peninsula TN Hollingsworth, AL Breen, RE Hewitt, MC Mack Arctic, Antarctic, and Alpine Research 53 (1), 93-109, 2021 | 12 | 2021 |
Mimicking climate warming effects on Alaskan soil microbial communities via gradual temperature increase MB Ballhausen, R Hewitt, MC Rillig Scientific Reports 10 (1), 8533, 2020 | 12 | 2020 |
Wildfire impacts on root‐associated fungi and predicted plant–soil feedbacks in the boreal forest: research progress and recommendations RE Hewitt, NJ Day, MR DeVan, DL Taylor Functional Ecology 37 (8), 2110-2125, 2023 | 9 | 2023 |
Root‐associated fungi not tree density influences stand nitrogen dynamics at the larch forest–tundra ecotone RE Hewitt, HD Alexander, SN Miller, MC Mack Journal of Ecology 110 (6), 1419-1431, 2022 | 8 | 2022 |
Increasing tree density accelerates stand‐level nitrogen cycling at the taiga–tundra ecotone in northeastern Siberia RE Hewitt, HD Alexander, B Izbicki, MM Loranty, SM Natali, XJ Walker, ... Ecosphere 13 (7), e4175, 2022 | 7 | 2022 |