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Showing 1-4 of about 4 results.
Fungal community dissimilarity predicts plant–soil feedback strength in a lowland tropical forestDOI: info:10.1002/ecy.4200
Delavaux, Camille S., Angst, Janika K., Espinosa, Hilario, Brown, Makenna, Petticord, Daniel F., Schroeder, John W., Broders, Kirk, Herre, Edward A., Bever, James D., and Crowther, Thomas W. 2023. "Fungal community dissimilarity predicts plant–soil feedback strength in a lowland tropical forest." Ecology, https://doi.org/10.1002/ecy.4200.
Host affinity of endophytic fungi and the potential for reciprocal interactions involving host secondary chemistryDOI: info:10.1002/ajb2.1436v. 107No. 2219–228
Christian, Natalie, Sedio, Brian E., Florez-Buitrago, Ximena, Ramírez-Camejo, Luis A., Rojas, Enith I., Mejía, Luis C., Palmedo, Sage, Rose, Autumn, Schroeder, John W., and Herre, Edward Allen. 2020. "Host affinity of endophytic fungi and the potential for reciprocal interactions involving host secondary chemistry." American Journal of Botany, 107, (2) 219–228. https://doi.org/10.1002/ajb2.1436.
Mutualist and pathogen traits interact to affect plant community structure in a spatially explicit modelDOI: info:10.1038/s41467-020-16047-5v. 11No. 11–10
Schroeder, John W., Dobson, Andrew, Mangan, Scott A., Petticord, Daniel F., and Herre, Edward Allen. 2020. "Mutualist and pathogen traits interact to affect plant community structure in a spatially explicit model." Nature Communications, 11, (1) 1–10. https://doi.org/10.1038/s41467-020-16047-5.
Fine scale spatial genetic structure in (Engl.) Eyma (Sapotaceae), a dioecious, vertebrate dispersed tropical rain forest tree speciesDOI: info:10.1016/j.gecco.2014.07.002v. 1Elsevier43–49
Schroeder, John W., Tran, Hoa T., and Dick, Christopher W. 2014. "Fine scale spatial genetic structure in Pouteria reticulata (Engl.) Eyma (Sapotaceae), a dioecious, vertebrate dispersed tropical rain forest tree species." Global Ecology and Conservation, 1 43–49. https://doi.org/10.1016/j.gecco.2014.07.002.