|Negative plant–soil feedback predicts tree-species relative abundance in a tropical forest|
SA Mangan, SA Schnitzer, EA Herre, KML Mack, MC Valencia, ...
Nature 466 (7307), 752-755, 2010
|Soil microbes drive the classic plant diversity–productivity pattern|
SA Schnitzer, JN Klironomos, J HilleRisLambers, LL Kinkel, PB Reich, ...
Ecology 92 (2), 296-303, 2011
|Maintenance of plant species diversity by pathogens|
JD Bever, SA Mangan, HM Alexander
Annual review of ecology, evolution, and systematics 46, 305-325, 2015
|Plant diversity increases with the strength of negative density dependence at the global scale|
JA LaManna, SA Mangan, A Alonso, NA Bourg, WY Brockelman, ...
Science 356 (6345), 1389-1392, 2017
|When and where plant‐soil feedback may promote plant coexistence: a meta‐analysis|
KM Crawford, JT Bauer, LS Comita, MB Eppinga, DJ Johnson, ...
Ecology Letters 22 (8), 1274-1284, 2019
|Liana abundance, diversity, and distribution on Barro Colorado Island, Panama|
SA Schnitzer, SA Mangan, JW Dalling, CA Baldeck, SP Hubbell, A Ledo, ...
PloS one 7 (12), e52114, 2012
|An ectomycorrhizal nitrogen economy facilitates monodominance in a neotropical forest|
A Corrales, SA Mangan, BL Turner, JW Dalling
Ecology Letters 19 (4), 383-392, 2016
|Pervasive and strong effects of plants on soil chemistry: a meta-analysis of individual plant ‘Zinke’effects|
BG Waring, L Álvarez-Cansino, KE Barry, KK Becklund, S Dale, MG Gei, ...
Proceedings of the Royal Society B: Biological Sciences 282 (1812), 20151001, 2015
|Consumption of arbuscular mycorrhizal fungi by terrestrial and arboreal small mammals in a Panamanian cloud forest|
SA Mangan, GH Adler
Journal of Mammalogy 81 (2), 563-570, 2000
|Diversity of arbuscular mycorrhizal fungi across a fragmented forest in Panama: insular spore communities differ from mainland communities|
SA Mangan, AH Eom, GH Adler, JB Yavitt, EA Herre
Oecologia 141, 687-700, 2004
|Specificity between Neotropical tree seedlings and their fungal mutualists leads to plant–soil feedback|
SA Mangan, EA Herre, JD Bever
Ecology 91 (9), 2594-2603, 2010
|Resource‐based habitat associations in a neotropical liana community|
JW Dalling, SA Schnitzer, C Baldeck, KE Harms, R John, SA Mangan, ...
Journal of Ecology 100 (5), 1174-1182, 2012
|Seasonal dispersal of arbuscular mycorrhizal fungi by spiny rats in a neotropical forest|
SA Mangan, GH Adler
Oecologia 131, 587-597, 2002
|Lianas have a greater competitive effect than trees of similar biomass on tropical canopy trees|
MF Tobin, AJ Wright, SA Mangan, SA Schnitzer
Ecosphere 3 (2), 1-11, 2012
|Responses of arbuscular mycorrhizal fungi to long-term inorganic and organic nutrient addition in a lowland tropical forest|
M Sheldrake, NP Rosenstock, S Mangan, D Revillini, EJ Sayer, ...
The ISME journal 12 (10), 2433-2445, 2018
|Ecological genomics of tropical trees: how local population size and allelic diversity of resistance genes relate to immune responses, cosusceptibility to pathogens, and …|
JH Marden, SA Mangan, MP Peterson, E Wafula, HW Fescemyer, JP Der, ...
Molecular Ecology 26 (9), 2498-2513, 2017
|Evidence of within-species specialization by soil microbes and the implications for plant community diversity|
JL Eck, SM Stump, CS Delavaux, SA Mangan, LS Comita
Proceedings of the National Academy of Sciences 116 (15), 7371-7376, 2019
|Arbuscular mycorrhizal fungal community composition is altered by long‐term litter removal but not litter addition in a lowland tropical forest|
M Sheldrake, NP Rosenstock, D Revillini, PA Olsson, S Mangan, ...
New Phytologist 214 (1), 455-467, 2017
|Richness, abundance, and habitat relations of rodents in the Lang Bian mountains of southern Viet Nam|
GH Adler, SA Mangan, V Suntsov
Journal of Mammalogy 80 (3), 891-898, 1999
|Complex facilitation and competition in a temperate grassland: loss of plant diversity and elevated CO2 have divergent and opposite effects on oak establishment|
A Wright, SA Schnitzer, IA Dickie, AR Gunderson, GA Pinter, SA Mangan, ...
Oecologia 171, 449-458, 2013