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Jeffrey Propster
Jeffrey Propster
Assistant Professor, New Mexico Highlands University
在 nmhu.edu 的电子邮件经过验证
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引用次数
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The functional significance of bacterial predators
BA Hungate, JC Marks, ME Power, E Schwartz, KJ van Groenigen, ...
Mbio 12 (2), 10.1128/mbio. 00466-21, 2021
66*2021
Life history strategies among soil bacteria—dichotomy for few, continuum for many
BWG Stone, P Dijkstra, BK Finley, R Fitzpatrick, MM Foley, M Hayer, ...
The ISME Journal 17 (4), 611-619, 2023
512023
Arbuscular mycorrhizal fungi in roots and soil respond differently to biotic and abiotic factors in the Serengeti
BM Stevens, JR Propster, M Öpik, GWT Wilson, SL Alloway, E Mayemba, ...
Mycorrhiza 30 (1), 79-95, 2020
452020
Uncoupling the effects of phosphorus and precipitation on arbuscular mycorrhizas in the Serengeti
JR Propster, NC Johnson
Plant and Soil 388, 21-34, 2015
332015
Mycorrhizal symbioses influence the trophic structure of the Serengeti
BM Stevens, J Propster, GWT Wilson, A Abraham, C Ridenour, C Doughty, ...
journal of ecology 106 (2), 536-546, 2018
242018
The hyphal tip structure of Basidiobolus sp.: a zygomycete fungus of uncertain phylogeny
RW Roberson, E Saucedo, D Maclean, J Propster, B Unger, TA Oneil, ...
Fungal biology 115 (6), 485-492, 2011
192011
Edaphic controls on genome size and GC content of bacteria in soil microbial communities
PF Chuckran, C Flagg, J Propster, WA Rutherford, ET Sieradzki, ...
Soil Biology and Biochemistry 178, 108935, 2023
162023
Location of studies and evidence of effects of herbivory on Arctic vegetation: a systematic map
EM Soininen, IC Barrio, R Bjørkås, K Björnsdóttir, D Ehrich, K Hopping, ...
Environmental Evidence 10 (1), 25, 2021
132021
Distinct growth responses of tundra soil bacteria to short-term and long-term warming
JR Propster, E Schwartz, M Hayer, S Miller, V Monsaint-Queeney, ...
Applied and Environmental Microbiology 89 (3), e01543-22, 2023
52023
Postrestoration colonization suggests slow regeneration, plant translocation barriers, and other host/symbiont lessons during the United Nations' Decade on Ecosystem Restoration
LM Markovchick, EA Schaefer, T Deringer, ZI Kovacs, RJ Deckert, ...
Restoration Ecology 31 (5), e13940, 2023
42023
Effects of warming on bacterial growth rates in a peat soil under ambient and elevated CO2
SL Bell, AE Zimmerman, BW Stone, CH Chang, M Blumer, RS Renslow, ...
Soil Biology and Biochemistry 178, 108933, 2023
42023
Microbial growth in soil
M Foley, BWG Stone, TA Caro, NW Sokol, SJ Blazewicz, P Dijkstra, ...
EcoEvoRxiv, 2024
2024
The biogeographical distribution of bacterial genomic traits and their relationship to growth and activity in soils
P Chuckran, K Estera-Molina, C Flagg, N Goudner, A Nicolas, JR Propster, ...
AGU Fall Meeting Abstracts 2023, B51A-03, 2023
2023
Cross-Validation for Training and Testing Co-occurrence Network Inference Algorithms
D Agyapong, JR Propster, J Marks, TD Hocking
arXiv preprint arXiv:2309.15225, 2023
2023
Soil microbial responses to climate change in the arctic Tundra
JR Propster
Northern Arizona University, 2022
2022
Quantifying the Effects of Warming and Ecosystem Change on Arctic Soil Microbial Communities
JR Propster, E Schwartz, M Hayer, MC Mack, BA Hungate
AGU Fall Meeting Abstracts 2019, B53G-2476, 2019
2019
Structural Diversity among Fungal Hyphae: Insights into Cell Growth and Phylogeny
D Lowry, B Saucedo, D MacLean, TA Oneil, J Propster, B Unger, ...
Microscopy and Microanalysis 16 (S2), 1148-1149, 2010
2010
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