Publications: Mark Bradford
Download CSV for Mark Bradford
| Title | Year | Citations | Score |
|---|---|---|---|
|
Toward an ecological classification of soil bacteria
Ecology 88 (6), 1354-1364, 2007 View Details |
2007 | 4170 | 99.7% |
|
The influence of soil properties on the structure of bacterial and fungal communities across land-use types
Soil Biology and Biochemistry 40 (9), 2407-2415, 2008 View Details |
2008 | 1797 | 99.0% |
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Comparative metagenomic, phylogenetic and physiological analyses of soil microbial communities across nitrogen gradients
The ISME journal 6 (5), 1007-1017, 2012 View Details |
2012 | 1616 | 99.0% |
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Temperature and soil organic matter decomposition rates–synthesis of current knowledge and a way forward
Global change biology 17 (11), 3392-3404, 2011 View Details |
2011 | 1487 | 98.9% |
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Soil-carbon response to warming dependent on microbial physiology
Nature Geoscience 3 (5), 336-340, 2010 View Details |
2010 | 1427 | 98.7% |
|
Quantifying global soil carbon losses in response to warming
Nature 540 (7631), 104-108, 2016 View Details |
2016 | 1040 | 98.7% |
|
Mapping tree density at a global scale
Nature 525 (7568), 201-205, 2015 View Details |
2015 | 956 | 98.6% |
|
Global patterns in belowground communities
Ecology letters 12 (11), 1238-1249, 2009 View Details |
2009 | 1173 | 98.4% |
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Global meta-analysis of the relationship between soil organic matter and crop yields
Soil 5 (1), 15-32, 2019 View Details |
2019 | 468 | 97.8% |
|
Microbial formation of stable soil carbon is more efficient from belowground than aboveground input
Nature Geoscience 12 (1), 46-53, 2019 View Details |
2019 | 442 | 97.7% |
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Managing uncertainty in soil carbon feedbacks to climate change
Nature Climate Change 6 (8), 751-758, 2016 View Details |
2016 | 595 | 97.4% |
|
Testing the functional significance of microbial community composition
Ecology 90 (2), 441-451, 2009 View Details |
2009 | 820 | 97.4% |
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Thermal adaptation of soil microbial respiration to elevated temperature
Ecology letters 11 (12), 1316-1327, 2008 View Details |
2008 | 836 | 97.2% |
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Pathways of mineral‐associated soil organic matter formation: Integrating the role of plant carbon source, chemistry, and point of entry
Global Change Biology 25 (1), 12-24, 2019 View Details |
2019 | 364 | 97.0% |
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FUTURE DIRECTIONS: Understanding the dominant controls on litter decomposition
Journal of Ecology, 229-238, 2016 View Details |
2016 | 501 | 96.8% |
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Evidence for the primacy of living root inputs, not root or shoot litter, in forming soil organic carbon
New Phytologist 221 (1), 233-246, 2019 View Details |
2019 | 329 | 96.6% |
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Where, when and how plant–soil feedback matters in a changing world
Functional Ecology 30 (7), 1109-1121, 2016 View Details |
2016 | 451 | 96.4% |
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Differential growth responses of soil bacterial taxa to carbon substrates of varying chemical recalcitrance
Frontiers in microbiology 2, 94, 2011 View Details |
2011 | 584 | 96.1% |
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Consistent effects of nitrogen fertilization on soil bacterial communities in contrasting systems
Ecology 91 (12), 3463-3470, 2010 View Details |
2010 | 579 | 95.8% |
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Global decomposition experiment shows soil animal impacts on decomposition are climate‐dependent
Global Change Biology 14 (11), 2661-2677, 2008 View Details |
2008 | 528 | 94.8% |
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Biogeographic patterns in below-ground diversity in New York City's Central Park are similar to those observed globally
Proceedings of the royal society B: biological sciences 281 (1795), 20141988, 2014 View Details |
2014 | 329 | 93.9% |
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Thermal adaptation of decomposer communities in warming soils
Frontiers in microbiology 4, 333, 2013 View Details |
2013 | 343 | 93.6% |
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Climate fails to predict wood decomposition at regional scales
Nature Climate Change 4 (7), 625-630, 2014 View Details |
2014 | 316 | 93.5% |
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A trait-based understanding of wood decomposition by fungi
Proceedings of the National Academy of Sciences 117 (21), 11551-11558, 2020 View Details |
2020 | 144 | 92.5% |
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Microbiota, fauna, and mesh size interactions in litter decomposition
Oikos 99 (2), 317-323, 2002 View Details |
2002 | 468 | 92.4% |
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Evidence for large microbial-mediated losses of soil carbon under anthropogenic warming
Nature Reviews Earth & Environment 2 (7), 507-517, 2021 View Details |
2021 | 98 | 92.3% |
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Litter quality is in the eye of the beholder: initial decomposition rates as a function of inoculum characteristics
Functional Ecology 23 (3), 627-636, 2009 View Details |
2009 | 356 | 92.1% |
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Biotic interactions mediate soil microbial feedbacks to climate change
Proceedings of the National Academy of Sciences 112 (22), 7033-7038, 2015 View Details |
2015 | 244 | 91.7% |
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Why are some microbes more ubiquitous than others? Predicting the habitat breadth of soil bacteria
Ecology letters 17 (7), 794-802, 2014 View Details |
2014 | 252 | 91.5% |
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Empirical evidence that soil carbon formation from plant inputs is positively related to microbial growth
Biogeochemistry 113, 271-281, 2013 View Details |
2013 | 270 | 91.5% |
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Untangling the fungal niche: the trait-based approach
Frontiers in microbiology 5, 579, 2014 View Details |
2014 | 251 | 91.5% |
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A test of the hierarchical model of litter decomposition
Nature ecology & evolution 1 (12), 1836-1845, 2017 View Details |
2017 | 205 | 91.4% |
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Multiple models and experiments underscore large uncertainty in soil carbon dynamics
Biogeochemistry 141, 109-123, 2018 View Details |
2018 | 187 | 91.3% |
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Integrating microbial ecology into ecosystem models: challenges and priorities
Biogeochemistry 109, 7-18, 2012 View Details |
2012 | 284 | 91.3% |
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A method for simultaneous measurement of soil bacterial abundances and community composition via 16S rRNA gene sequencing
Soil Biology and Biochemistry 96, 145-151, 2016 View Details |
2016 | 209 | 91.0% |
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Understanding how microbiomes influence the systems they inhabit
Nature microbiology 3 (9), 977-982, 2018 View Details |
2018 | 170 | 90.4% |
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Identifying the microbial taxa that consistently respond to soil warming across time and space
Global Change Biology 23 (5), 2117-2129, 2017 View Details |
2017 | 183 | 90.3% |
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Empirical and theoretical challenges in aboveground–belowground ecology
Oecologia 161, 1-14, 2009 View Details |
2009 | 288 | 90.0% |
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Fear of predation slows plant-litter decomposition
Science 336 (6087), 1434-1438, 2012 View Details |
2012 | 248 | 89.8% |
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Animating the carbon cycle
Ecosystems 17, 344-359, 2014 View Details |
2014 | 217 | 89.8% |
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Impacts of soil faunal community composition on model grassland ecosystems
Science 298 (5593), 615-618, 2002 View Details |
2002 | 357 | 89.8% |
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Methane emissions from tree stems: a new frontier in the global carbon cycle
New Phytologist 222 (1), 18-28, 2019 View Details |
2019 | 124 | 89.2% |
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Soil organic matter protects US maize yields and lowers crop insurance payouts under drought
Environmental Research Letters 16 (4), 044018, 2021 View Details |
2021 | 73 | 89.0% |
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Soil carbon science for policy and practice
Nature Sustainability 2 (12), 1070-1072, 2019 View Details |
2019 | 122 | 89.0% |
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Soil carbon stocks in experimental mesocosms are dependent on the rate of labile carbon, nitrogen and phosphorus inputs to soils
Functional Ecology 22 (6), 964-974, 2008 View Details |
2008 | 266 | 88.7% |
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Cross-biome patterns in soil microbial respiration predictable from evolutionary theory on thermal adaptation
Nature Ecology & Evolution 3 (2), 223-231, 2019 View Details |
2019 | 119 | 88.7% |
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Thermal acclimation in widespread heterotrophic soil microbes
Ecology letters 16 (4), 469-477, 2013 View Details |
2013 | 212 | 88.6% |
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Fungal taxa target different carbon sources in forest soil
Ecosystems 11, 1157-1167, 2008 View Details |
2008 | 253 | 88.1% |
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Consistent trade-offs in fungal trait expression across broad spatial scales
Nature microbiology 4 (5), 846-853, 2019 View Details |
2019 | 112 | 87.9% |
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Discontinuity in the responses of ecosystem processes and multifunctionality to altered soil community composition
Proceedings of the National Academy of Sciences 111 (40), 14478-14483, 2014 View Details |
2014 | 182 | 87.7% |
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Direct effects of soil organic matter on productivity mirror those observed with organic amendments
Plant and soil 423, 363-373, 2018 View Details |
2018 | 127 | 86.8% |
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The influence of microbial communities, management, and soil texture on soil organic matter chemistry
Geoderma 150 (3-4), 278-286, 2009 View Details |
2009 | 218 | 86.5% |
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Soil microbial respiration adapts to ambient temperature in global drylands
Nature Ecology & Evolution 3 (2), 232-238, 2019 View Details |
2019 | 96 | 85.8% |
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Competitive network determines the direction of the diversity–function relationship
Proceedings of the National Academy of Sciences 114 (43), 11464-11469, 2017 View Details |
2017 | 125 | 85.3% |
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Thermal adaptation of heterotrophic soil respiration in laboratory microcosms
Global Change Biology 16 (5), 1576-1588, 2010 View Details |
2010 | 191 | 84.3% |
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Soil fauna alter the effects of litter composition on nitrogen cycling in a mineral soil
Soil Biology and Biochemistry 43 (7), 1440-1449, 2011 View Details |
2011 | 175 | 84.1% |
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Microbial stoichiometry overrides biomass as a regulator of soil carbon and nitrogen cycling
Ecology 96 (4), 1139-1149, 2015 View Details |
2015 | 130 | 83.3% |
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Nonadditive effects of leaf litter species diversity on breakdown dynamics in a detritus‐based stream
Ecology 88 (5), 1167-1176, 2007 View Details |
2007 | 183 | 82.7% |
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Predicting the responsiveness of soil biodiversity to deforestation: a cross‐biome study
Global change biology 20 (9), 2983-2994, 2014 View Details |
2014 | 132 | 82.6% |
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Quantifying microbial control of soil organic matter dynamics at macrosystem scales
Biogeochemistry 156 (1), 19-40, 2021 View Details |
2021 | 48 | 82.6% |
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Litter quality impacts on grassland litter decomposition are differently dependent on soil fauna across time
Applied Soil Ecology 24 (2), 197-203, 2003 View Details |
2003 | 204 | 82.2% |
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Challenges and future directions in urban afforestation
Journal of Applied Ecology 50 (5), 1169-1177, 2013 View Details |
2013 | 135 | 81.8% |
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Diversity begets diversity in competition for space
Nature ecology & evolution 1 (6), 0156, 2017 View Details |
2017 | 101 | 81.7% |
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The abundance, richness and functional role of soil meso-and macrofauna in temperate grassland—A case study
Applied Soil Ecology 33 (2), 186-198, 2006 View Details |
2006 | 175 | 81.7% |
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Consequences of non‐random species loss for decomposition dynamics: experimental evidence for additive and non‐additive effects
Journal of ecology 96 (2), 303-313, 2008 View Details |
2008 | 166 | 81.6% |
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The functional role of ericoid mycorrhizal plants and fungi on carbon and nitrogen dynamics in forests
New Phytologist 235 (5), 1701-1718, 2022 View Details |
2022 | 28 | 81.3% |
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Direct and indirect effects of nitrogen deposition on litter decomposition
Soil Biology and Biochemistry 40 (3), 688-698, 2008 View Details |
2008 | 160 | 81.0% |
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Global meta-analysis of the relationship between soil organic matter and crop yields. Soil 5: 15–32
View Details |
2019 | 69 | 80.1% |
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The role of Eriophorum vaginatum in CH4 flux from an ombrotrophic peatland
Plant and Soil 227, 265-272, 2000 View Details |
2000 | 182 | 79.9% |
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The effect of resource history on the functioning of soil microbial communities is maintained across time
Biogeosciences 8 (6), 1477-1486, 2011 View Details |
2011 | 137 | 79.9% |
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Disentangling the mechanisms underlying functional differences among decomposer communities
Journal of Ecology 102 (3), 603-609, 2014 View Details |
2014 | 112 | 79.4% |
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Elevated methane concentrations in trees of an upland forest
Geophysical Research Letters 39 (15), 2012 View Details |
2012 | 124 | 78.9% |
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Carbon use efficiency and storage in terrestrial ecosystems
New Phytologist 199 (1), 7-9, 2013 View Details |
2013 | 108 | 77.4% |
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A city‐scale assessment reveals that native forest types and overstory species dominate New York City forests
Ecological Applications 29 (1), e01819, 2019 View Details |
2019 | 58 | 76.4% |
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Fungal interactions reduce carbon use efficiency
Ecology letters 20 (8), 1034-1042, 2017 View Details |
2017 | 76 | 76.0% |
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Direct evidence using a controlled greenhouse study for threshold effects of soil organic matter on crop growth
Ecological Applications 30 (4), e02073, 2020 View Details |
2020 | 47 | 75.5% |
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Toward an improved understanding of causation in the ecological sciences
Frontiers in Ecology and the Environment 20 (8), 474-480, 2022 View Details |
2022 | 21 | 75.4% |
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Long‐term research in ecology and evolution: A survey of challenges and opportunities
Ecological Monographs 88 (2), 245-258, 2018 View Details |
2018 | 66 | 75.3% |
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Increasing microbial carbon use efficiency with warming predicts soil heterotrophic respiration globally
Global Change Biology 25 (10), 3354-3364, 2019 View Details |
2019 | 55 | 75.2% |
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Social insects dominate eastern US temperate hardwood forest macroinvertebrate communities in warmer regions
PLoS One 8 (10), e75843, 2013 View Details |
2013 | 97 | 75.2% |
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Trophic cascade alters ecosystem carbon exchange
Proceedings of the National Academy of Sciences 110 (27), 11035-11038, 2013 View Details |
2013 | 93 | 74.2% |
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Biodiversity and ecosystem productivity: implications for carbon storage
Oikos 97 (3), 443-448, 2002 View Details |
2002 | 128 | 73.9% |
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Grass invasion of a hardwood forest is associated with declines in belowground carbon pools
Global Change Biology 16 (4), 1338-1350, 2010 View Details |
2010 | 106 | 73.4% |
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Decoupling the direct and indirect effects of nitrogen deposition on ecosystem function
Ecology Letters 9 (9), 1015-1024, 2006 View Details |
2006 | 113 | 73.4% |
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Do non‐additive effects on decomposition in litter‐mix experiments result from differences in resource quality between litters?
Oikos 102 (2), 235-242, 2003 View Details |
2003 | 120 | 72.8% |
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Positive effects of afforestation efforts on the health of urban soils
Forest Ecology and Management 313, 266-273, 2014 View Details |
2014 | 83 | 72.8% |
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The interaction between propagule pressure, habitat suitability and density‐dependent reproduction in species invasion
Oikos 121 (6), 874-881, 2012 View Details |
2012 | 93 | 72.8% |
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Arctic soil governs whether climate change drives global losses or gains in soil carbon
Geophysical Research Letters 46 (24), 14486-14495, 2019 View Details |
2019 | 49 | 72.5% |
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Promoting Earth Stewardship through urban design experiments
Frontiers in Ecology and the Environment 11 (7), 362-367, 2013 View Details |
2013 | 86 | 72.4% |
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Linking functional diversity and ecosystem processes: A framework for using functional diversity metrics to predict the ecosystem impact of functionally unique species
Journal of Ecology 106 (2), 687-698, 2018 View Details |
2018 | 58 | 72.3% |
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Applying population and community ecology theory to advance understanding of belowground biogeochemistry
Ecology letters 20 (2), 231-245, 2017 View Details |
2017 | 64 | 72.0% |
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Refining national greenhouse gas inventories
Ambio 49, 1581-1586, 2020 View Details |
2020 | 40 | 71.8% |
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Estimating carbon storage in urban forests of New York City
Urban Ecosystems 25 (2), 617-631, 2022 View Details |
2022 | 18 | 71.7% |
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Defining and assessing urban forests to inform management and policy
Environmental Research Letters 14 (8), 085002, 2019 View Details |
2019 | 46 | 70.9% |
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Growing the urban forest: tree performance in response to biotic and abiotic land management
Restoration Ecology 23 (5), 707-718, 2015 View Details |
2015 | 71 | 70.6% |
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The putative niche requirements and landscape dynamics of Microstegium vimineum: an invasive Asian grass
Biological Invasions 13, 471-483, 2011 View Details |
2011 | 87 | 70.3% |
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Positive associations of soil organic matter and crop yields across a regional network of working farms
Soil Science Society of America Journal 86 (2), 384-397, 2022 View Details |
2022 | 17 | 70.2% |
|
Climate masks decomposer influence in a cross-site litter decomposition study
Soil Biology and Biochemistry 107, 180-187, 2017 View Details |
2017 | 59 | 70.0% |
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Climate history shapes contemporary leaf litter decomposition
Biogeochemistry 122, 165-174, 2015 View Details |
2015 | 68 | 69.4% |
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Ericoid mycorrhizal shrubs alter the relationship between tree mycorrhizal dominance and soil carbon and nitrogen
Journal of Ecology 109 (10), 3524-3540, 2021 View Details |
2021 | 26 | 68.8% |
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Response of soil microbial community composition and function to a bottomland forest restoration intensity gradient
Applied Soil Ecology 119, 317-326, 2017 View Details |
2017 | 56 | 68.6% |
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Species associations overwhelm abiotic conditions to dictate the structure and function of wood‐decay fungal communities
Ecology 99 (4), 801-811, 2018 View Details |
2018 | 47 | 67.1% |
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Environmental stress response limits microbial necromass contributions to soil organic carbon
Soil Biology and Biochemistry 85, 153-161, 2015 View Details |
2015 | 61 | 66.8% |
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Temperature cues phenological synchrony in ant‐mediated seed dispersal
Global Change Biology 17 (7), 2444-2454, 2011 View Details |
2011 | 75 | 66.7% |
|
Controlling factors and effects of chronic nitrogen and sulphur deposition on methane oxidation in a temperate forest soil
Soil Biology and Biochemistry 33 (1), 93-102, 2001 View Details |
2001 | 85 | 65.9% |
|
Soil-carbon response to warming dependent on microbial physiology, Nat. Geosci., 3, 336–340
View Details |
2010 | 75 | 65.7% |
|
Mutualism fails when climate response differs between interacting species
Global Change Biology 20 (2), 466-474, 2014 View Details |
2014 | 61 | 65.0% |
|
Nonlinear root‐derived carbon sequestration across a gradient of nitrogen and phosphorous deposition in experimental mesocosms
Global Change Biology 14 (5), 1113-1124, 2008 View Details |
2008 | 74 | 64.5% |
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Improving scientific impact: How to practice science that influences environmental policy and management
Conservation Science and Practice 2 (7), e210, 2020 View Details |
2020 | 29 | 63.4% |
|
Agricultural intensification and the functional capacity of soil microbes on smallholder African farms
Journal of Applied Ecology 52 (3), 744-752, 2015 View Details |
2015 | 53 | 63.1% |
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Nitrogen and phosphorus release from mixed litter layers is lower than predicted from single species decay
Ecosystems 12, 87-100, 2009 View Details |
2009 | 67 | 62.9% |
|
Nitrogen uptake and preference in a forest understory following invasion by an exotic grass
Oecologia 167, 781-791, 2011 View Details |
2011 | 64 | 62.8% |
|
Linkages between below and aboveground communities: Decomposer responses to simulated tree species loss are largely additive
Soil Biology and Biochemistry 41 (6), 1155-1163, 2009 View Details |
2009 | 66 | 62.6% |
|
Involving ecologists in shaping large-scale green infrastructure projects
BioScience 63 (11), 882-890, 2013 View Details |
2013 | 57 | 62.5% |
|
Rates of in situ carbon mineralization in relation to land-use, microbial community and edaphic characteristics
Soil Biology and Biochemistry 42 (2), 260-269, 2010 View Details |
2010 | 64 | 62.1% |
|
Factors driving natural regeneration beneath a planted urban forest
Urban Forestry & Urban Greening 29, 238-247, 2018 View Details |
2018 | 38 | 61.5% |
|
Microbial communities may modify how litter quality affects potential decomposition rates as tree species migrate
Plant and Soil 372, 167-176, 2013 View Details |
2013 | 54 | 61.1% |
|
Soil nutrient heterogeneity interacts with elevated CO2 and nutrient availability to determine species and assemblage responses in a model grassland community
New Phytologist 168 (3), 637-650, 2005 View Details |
2005 | 65 | 60.9% |
|
Ant colonization and coarse woody debris decomposition in temperate forests
Insectes sociaux 59, 215-221, 2012 View Details |
2012 | 56 | 60.3% |
|
Temperate forest termites: ecology, biogeography, and ecosystem impacts
Ecological Entomology 40 (3), 199-210, 2015 View Details |
2015 | 47 | 59.9% |
|
Applying the aboveground-belowground interaction concept in agriculture: Spatio-temporal scales matter
Frontiers in Ecology and Evolution 7, 300, 2019 View Details |
2019 | 30 | 59.4% |
|
Opposing effects of different soil organic matter fractions on crop yields
Ecological Applications 26 (7), 2072-2085, 2016 View Details |
2016 | 42 | 59.0% |
|
The fate of glucose, a low molecular weight compound of root exudates, in the belowground foodweb of forests and pastures
Soil Biology and Biochemistry 49, 23-29, 2012 View Details |
2012 | 53 | 59.0% |
|
Soil heterogeneity and community composition jointly influence grassland biomass
Journal of Vegetation Science 17 (3), 261-270, 2006 View Details |
2006 | 59 | 58.9% |
|
The shape of things to come: woodland herb niche contraction begins during recruitment in mesic forest microhabitat
Proceedings of the Royal Society B: Biological Sciences 278 (1710), 1390-1398, 2011 View Details |
2011 | 54 | 58.8% |
|
Assessing the functional implications of soil biodiversity in ecosystems
Ecological research 16, 845-858, 2001 View Details |
2001 | 59 | 58.5% |
|
Role of CH4 oxidation, production and transport in forest soil CH4 flux
Soil Biology and Biochemistry 33 (12-13), 1625-1631, 2001 View Details |
2001 | 59 | 58.5% |
|
Habitat, dispersal and propagule pressure control exotic plant infilling within an invaded range
Ecosphere 4 (2), 1-12, 2013 View Details |
2013 | 49 | 58.5% |
|
Re-visioning soil food webs
Soil Biology and Biochemistry 100 (102), 1-3, 2016 View Details |
2016 | 41 | 58.4% |
|
Greenhouse trace gases in deadwood
Biogeochemistry 130, 215-226, 2016 View Details |
2016 | 40 | 57.6% |
|
The adaptive response of a natural microbial population to carbon‐and nitrogen‐limitation
Ecology letters 6 (7), 594-598, 2003 View Details |
2003 | 57 | 57.3% |
|
Invasive lianas are drivers of and passengers to altered soil nutrient availability in urban forests
Biological Invasions 22, 935-955, 2020 View Details |
2020 | 23 | 57.1% |
|
Natural area forests in US cities: Opportunities and challenges
Journal of Forestry 119 (2), 141-151, 2021 View Details |
2021 | 17 | 57.0% |
|
Disturbance decouples biogeochemical cycles across forests of the southeastern US
Ecosystems 19, 50-61, 2016 View Details |
2016 | 39 | 56.9% |
|
The biogeography of microbial communities and ecosystem processes: implications for soil and ecosystem models
Soil ecology and ecosystem services 18, 189-200, 2012 View Details |
2012 | 48 | 56.6% |
|
Ant‐mediated seed dispersal does not facilitate niche expansion
Journal of Ecology 98 (5), 1178-1185, 2010 View Details |
2010 | 50 | 56.4% |
|
Root carbon flow from an invasive plant to belowground foodwebs
Plant and Soil 359, 233-244, 2012 View Details |
2012 | 47 | 56.1% |
|
Positive long‐term impacts of restoration on soils in an experimental urban forest
Ecological Applications 31 (5), e02336, 2021 View Details |
2021 | 16 | 55.2% |
|
Biofuel intercropping effects on soil carbon and microbial activity
Ecological Applications 25 (1), 140-150, 2015 View Details |
2015 | 39 | 54.9% |
|
The effects of acid nitrogen and acid sulphur deposition on CH4 oxidation in a forest soil: a laboratory study
Soil Biology and Biochemistry 33 (12-13), 1695-1702, 2001 View Details |
2001 | 49 | 54.8% |
|
Substrate identity and amount overwhelm temperature effects on soil carbon formation
Soil Biology and Biochemistry 124, 218-226, 2018 View Details |
2018 | 29 | 54.2% |
|
Belowground community turnover accelerates the decomposition of standing dead wood
Ecology 102 (11), e03484, 2021 View Details |
2021 | 15 | 53.2% |
|
Surveying soil faunal communities using a direct molecular approach
Soil Biology and Biochemistry 41 (6), 1311-1314, 2009 View Details |
2009 | 43 | 52.7% |
|
Competition as a mechanism structuring mutualisms
Journal of Ecology 102 (2), 486-495, 2014 View Details |
2014 | 37 | 52.1% |
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Forest invader replaces predation but not dispersal services by a keystone species
Biological Invasions 17, 3153-3162, 2015 View Details |
2015 | 34 | 51.3% |
|
Decoupling direct and indirect effects of temperature on decomposition
Soil Biology and Biochemistry 112, 110-116, 2017 View Details |
2017 | 29 | 51.3% |
|
Carbon dynamics in a model grassland with functionally different soil communities
Functional Ecology 21 (4), 690-697, 2007 View Details |
2007 | 41 | 51.1% |
|
Performance and reproduction of an exotic invader across temperate forest gradients
Ecosphere 2 (2), 1-19, 2011 View Details |
2011 | 39 | 51.0% |
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Loss of faster-cycling soil carbon pools following grass invasion across multiple forest sites
Soil Biology and Biochemistry 43 (2), 452-454, 2011 View Details |
2011 | 39 | 51.0% |
|
Biogenic factors explain soil carbon in paired urban and natural ecosystems worldwide
Nature Climate Change 13 (5), 450-455, 2023 View Details |
2023 | 5 | 50.7% |
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Soil CH4 oxidation: response to forest clearcutting and thinning
Soil Biology and Biochemistry 32 (7), 1035-1038, 2000 View Details |
2000 | 40 | 50.6% |
|
Acceleration or deceleration of litter decomposition by herbivory depends on nutrient availability through intraspecific differences in induced plant resistance traits
Journal of Ecology 106 (6), 2380-2394, 2018 View Details |
2018 | 25 | 50.0% |
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Grass invasions across a regional gradient are associated with declines in belowground carbon pools
Ecosystems 15, 1271-1282, 2012 View Details |
2012 | 36 | 49.7% |
|
Legacies of plant litter on carbon and nitrogen dynamics and the role of the soil community
Pedobiologia 55 (4), 185-192, 2012 View Details |
2012 | 36 | 49.7% |
|
Field experiments show contradictory short‐and long‐term myrmecochorous plant impacts on seed‐dispersing ants
Ecological Entomology 44 (1), 30-39, 2019 View Details |
2019 | 21 | 49.5% |
|
Impacts of invasive plant species on riparian plant assemblages: interactions with elevated atmospheric carbon dioxide and nitrogen deposition
Oecologia 152, 791-803, 2007 View Details |
2007 | 38 | 49.5% |
|
Impacts of an invasive plant are fundamentally altered by a co‐occurring forest disturbance
Ecology 98 (8), 2133-2144, 2017 View Details |
2017 | 27 | 49.4% |
|
The cross‐contamination and survival of Salmonella enteritidis PT4 on sterile and non‐sterile foodstuffs
Letters in applied microbiology 24 (4), 261-264, 1997 View Details |
1997 | 34 | 49.2% |
|
Signatures of an abiotic decomposition pathway in temperate forest leaf litter
Biogeochemistry 153, 177-190, 2021 View Details |
2021 | 13 | 48.8% |
|
Compositional differences in simulated root exudates elicit a limited functional and compositional response in soil microbial communities
Frontiers in Microbiology 6, 817, 2015 View Details |
2015 | 30 | 48.2% |
|
Farm management, not soil microbial diversity, controls nutrient loss from smallholder tropical agriculture
Frontiers in microbiology 6, 90, 2015 View Details |
2015 | 30 | 48.2% |
|
How much SOM is needed for sustainable agriculture
Front Ecol Environ 13 (10), 527-527, 2015 View Details |
2015 | 29 | 47.3% |
|
Characterizing organic carbon stocks and flows in forest soils
Managing forest carbon in a changing climate, 7-30, 2012 View Details |
2012 | 32 | 46.9% |
|
Compensatory thermal adaptation of soil microbial respiration rates in global croplands
Global Biogeochemical Cycles 34 (6), e2019GB006507, 2020 View Details |
2020 | 16 | 46.7% |
|
Leveraging a new understanding of how belowground food webs stabilize soil organic matter to promote ecological intensification of agriculture
Soil carbon storage, 117-136, 2018 View Details |
2018 | 22 | 46.7% |
|
Native, insect herbivore communities derive a significant proportion of their carbon from a widespread invader of forest understories
Biological Invasions 12, 721-724, 2010 View Details |
2010 | 32 | 46.6% |
|
Diverging conditions of current and potential future urban forest patches
Ecosphere 13 (3), e4001, 2022 View Details |
2022 | 7 | 44.1% |
|
Seeing shapes in clouds: the fallacy of deriving ecological hypotheses from statistical distributions
Oikos 2022 (11), e09315, 2022 View Details |
2022 | 7 | 44.1% |
|
The potential for mass ratio and trait divergence effects to explain idiosyncratic impacts of non‐native invasive plants on carbon mineralization of decomposing leaf litter
Functional Ecology 33 (6), 1156-1171, 2019 View Details |
2019 | 17 | 43.9% |
|
Plant invasion impacts on arthropod abundance, diversity and feeding consistent across environmental and geographic gradients
Biological Invasions 14, 2625-2637, 2012 View Details |
2012 | 28 | 43.9% |
|
Nitrogen recycling in coupled green and brown food webs: Weak effects of herbivory and detritivory when nitrogen passes through soil
Journal of Ecology 107 (2), 963-976, 2019 View Details |
2019 | 16 | 42.3% |
|
Reply to Byrnes et al.: Aggregation can obscure understanding of ecosystem multifunctionality
Proceedings of the National Academy of Sciences 111 (51), E5491-E5491, 2014 View Details |
2014 | 24 | 42.0% |
|
Decreased mass specific respiration under experimental warming is robust to the microbial biomass method employed
Ecology Letters 12 (7), E15-E18, 2009 View Details |
2009 | 25 | 41.9% |
|
Contingency in ecosystem but not plant community response to multiple global change factors
New Phytologist 196 (2), 462-471, 2012 View Details |
2012 | 25 | 41.5% |
|
Consistent effects of eastern subterranean termites (Reticulitermes flavipes) on properties of a temperate forest soil
Soil Biology and Biochemistry 91, 84-91, 2015 View Details |
2015 | 22 | 40.8% |
|
Ants: ecology and impacts in dead wood
Saproxylic insects: diversity, ecology and conservation, 237-262, 2018 View Details |
2018 | 17 | 40.1% |
|
Good dirt with good friends
Nature 505 (7484), 486-487, 2014 View Details |
2014 | 22 | 40.0% |
|
The effect of a quorum-quenching enzyme on leaf litter decomposition
Soil Biology and Biochemistry 64, 65-67, 2013 View Details |
2013 | 22 | 39.6% |
|
Patterns and controls of aboveground litter inputs to temperate forests
Biogeochemistry 161 (3), 335-352, 2022 View Details |
2022 | 6 | 39.4% |
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Seasonal climate trends, the North Atlantic Oscillation, and salamander abundance in the Southern Appalachian Mountain Region
Journal of Applied Meteorology and Climatology 49 (8), 1597-1603, 2010 View Details |
2010 | 22 | 39.1% |
|
Temperature sensitivity of soil carbon
Ecosystem consequences of soil warming, 175-208, 2019 View Details |
2019 | 14 | 39.0% |
|
Environmental heterogeneity and interspecific interactions influence nest occupancy by key seed-dispersing ants
Environmental Entomology 41 (3), 463-468, 2012 View Details |
2012 | 22 | 38.8% |
|
Decoupling litter barrier and soil moisture influences on the establishment of an invasive grass
Plant and Soil 367, 339-346, 2013 View Details |
2013 | 21 | 38.6% |
|
Cryptic indirect effects of exurban edges on a woodland community
Ecosphere 6 (11), 1-13, 2015 View Details |
2015 | 19 | 37.5% |
|
Disentangling resource acquisition from interspecific behavioral aggression to understand the ecological dominance of a common, widespread temperate forest ant
Insectes Sociaux 67 (1), 179-187, 2020 View Details |
2020 | 11 | 36.7% |
|
Earthworms modify plant biomass and nitrogen capture under conditions of soil nutrient heterogeneity and elevated atmospheric CO2 concentrations
Soil Biology and Biochemistry 78, 182-188, 2014 View Details |
2014 | 15 | 32.5% |
|
Soil faunal assemblage composition modifies root in-growth to plant litter patches
Pedobiologia 50 (6), 505-513, 2007 View Details |
2007 | 13 | 30.6% |
|
Universal ecological patterns in college basketball communities
PLoS One 6 (3), e17342, 2011 View Details |
2011 | 12 | 29.0% |
|
Non-native Microstegium vimineum populations collapse with fungal leaf spot disease outbreak
Plant Ecology 222 (1), 107-117, 2021 View Details |
2021 | 6 | 27.6% |
|
Slow-cycle effects of foliar herbivory alter the nitrogen acquisition and population size of Collembola
Soil Biology and Biochemistry 40 (5), 1253-1258, 2008 View Details |
2008 | 10 | 27.0% |
|
Modelling the multidimensional niche by linking functional traits to competitive performance
Proceedings of the Royal Society B: Biological Sciences 282 (1811), 20150516, 2015 View Details |
2015 | 10 | 25.8% |
|
Soil carbon: a leaky sink
Nature Climate Change 7 (7), 475-476, 2017 View Details |
2017 | 9 | 25.7% |
|
Crowther et al. reply
Nature 554 (7693), E7-E8, 2018 View Details |
2018 | 8 | 24.8% |
|
Scaling terrestrial biogeochemical processes contrasting intact and model experimental systems
Scaling and Uncertainty Analysis in Ecology, 109-130, 2006 View Details |
2006 | 8 | 24.5% |
|
The cause of head injuries in real world crashes
Proceedings: International Technical Conference on the Enhanced Safety of …, 1993 View Details |
1993 | 7 | 23.9% |
|
Soil nutrient recovery after shelterwood timber harvesting in a temperate oak hardwood forest: Insights using a twenty-five-year chronosequence
Forest Ecology and Management 499, 119604, 2021 View Details |
2021 | 5 | 23.6% |
|
With the worms: Soil biodiversity and ecosystem functioning.
Biologist (London, England) 49 (3), 127-130, 2002 View Details |
2002 | 7 | 23.1% |
|
Global tree density map
EliScholar, 2015 View Details |
2015 | 8 | 22.6% |
|
Global change impacts on ant-mediated seed dispersal in eastern North American forests
View Details |
2017 | 7 | 21.8% |
|
Plant mycorrhizal associations mediate the zoogeochemical effects of calving subsidies by a forest ungulate
Journal of Animal Ecology 92 (12), 2280-2296, 2023 View Details |
2023 | 2 | 21.2% |
|
Depth‐dependent effects of ericoid mycorrhizal shrubs on soil carbon and nitrogen pools are accentuated under arbuscular mycorrhizal trees
Global Change Biology 29 (20), 5924-5940, 2023 View Details |
2023 | 2 | 21.2% |
|
Factors influencing the development and implementation of national greenhouse gas inventory methodologies
Policy Design and Practice 5 (2), 197-225, 2022 View Details |
2022 | 3 | 20.7% |
|
A leaky sink
Nature Climate Change 7 (7), 475-476, 2017 View Details |
2017 | 6 | 19.6% |
|
Linking predation risk, herbivore physiological stress and microbial decomposition of plant litter
JoVE (Journal of Visualized Experiments), e50061, 2013 View Details |
2013 | 6 | 18.8% |
|
Nest-mediated seed dispersal
Plant Ecology 218, 1213-1220, 2017 View Details |
2017 | 5 | 17.2% |
|
Terrestrial biodiversity and climate change
Global Environ Chang 1, 355-361, 2014 View Details |
2014 | 5 | 16.3% |
|
Quick carbon: A rapid, landscape-scale soil carbon assessment tool
AGU Fall Meeting Abstracts 2019, B31E-02, 2019 View Details |
2019 | 4 | 15.9% |
|
Scale dependence in functional equivalence and difference in the soil microbiome
Soil Biology and Biochemistry 163, 108451, 2021 View Details |
2021 | 3 | 14.2% |
|
Science petitions are a facade of numbers
Nature 493 (7433), 480-480, 2013 View Details |
2013 | 4 | 14.1% |
|
Myrmecochorous plants and their ant seed dispersers through successional stages in temperate cove forests
Ecological Entomology 47 (5), 749-757, 2022 View Details |
2022 | 2 | 11.9% |
|
Predicting soil carbon loss with warming reply
Nature 554 (7693), E7-E8, 2018 View Details |
2018 | 3 | 11.4% |
|
Reply to Veresoglou: Overdependence on “significance” testing in biology
Proceedings of the National Academy of Sciences 112 (37), E5114-E5114, 2015 View Details |
2015 | 3 | 10.6% |
|
Correction: Social insects dominate eastern US temperate hardwood forest macroinvertebrate communities in warmer regions
Plos one 8 (10), 2013 View Details |
2013 | 1 | 0.0% |
|
Long‐term research in ecology and evolution (LTREE): 2015 survey data
Ecology 98 (11), 2980-2980, 2017 View Details |
2017 | 1 | 0.0% |
|
Soil organic matter effects on US maize production and crop insurance payouts under drought.
AgriRxiv, 20203382463, 2020 View Details |
2020 | 1 | 0.0% |
|
Testing the feasibility of quantifying change in agricultural soil carbon stocks through empirical sampling
Geoderma 440, 116719, 2023 View Details |
2023 | 1 | 0.0% |
|
Quantifying the effects sizes of common controls on methane emissions from an ombrotrophic peat bog
Journal of Geophysical Research: Biogeosciences, e2022JG007271, 2023 View Details |
2023 | 1 | 0.0% |
|
Mitigating near-term climate change
View Details |
2023 | 1 | 0.0% |
|
A stoichiometric approach to estimate sources of mineral‐associated soil organic matter
Global Change Biology 30 (1), e17092, 2024 View Details |
2024 | 1 | 0.0% |