Hernandez, M, and Suni, SS. (2024) Effects of landscape, resource use, and body size on genetic structure in bee populations. Ecology and Evolution. 14: e11358 [Link]

Suni, SS, Kuwana, A., Ibañez, N. (2023) Responses of floral traits to water limitation across soil and climatic gradients. Flora 304: 152295. [Link]

Suni, SS, and Hernandez, M. (2023) Strong decreases in genetic diversity despite high gene flow for a solitary bee.  Conservation Genetics 1-9. [Link]

Suni, SS, Hall, E, and Bahu, E.  (2022) Urbanization increases floral specialization of pollinators.  Ecology and Evolution. 12: 3. [Link]

Suni, SS, and Dela Cruz, K.  (2021) Climate associated shifts in color and body size for a tropical bee.  Apidologie. 26: 1-3. [Link]

Suni, SS, Ainsworth, B, and Hopkins R.  (2020)  Local adaptation mediates floral responses to water limitation in an annual wildflower. American Journal of Botany 107(2): 209-218. [Link]

Suni, SS, and Hopkins, R.  (2018)  The relationship between post mating reproductive isolation and reinforcement in Phlox. Evolution. 72: 1333-1536. [Link]

Suni, SS, Scott, Z, Averill, A, and Whiteley A.  (2017) Population genetics of commercial and wild bumble bees: implications for crop pollination and the genetic integrity of wild bees. Conservation Genetics [Link]

Suni, SS. (2017) Dispersal over degraded habitat and intact forest for the orchid bee Euglossa imperialisConservation Genetics [Link]

Suni, SS and Whiteley, A. (2015) Genetic structure of a montane perennial plant: the influence of landscape and flowering phenology. Conservation Genetics 16: 1431-1442. [Link]

Suni, SS, Bronstein, J, Brosi, BJ.  (2014) Spatio-temporal Genetic Structure of a Tropical Bee Species Suggests High Dispersal Over a Fragmented Landscape. Biotropica 24: 202-209. [Link]

Suni, SS, and Brosi, BJ.  (2012)  Population genetics of orchid bees in a fragmented tropical landscape. Conservation Genetics 13: 323-332. [Link]

Suni, SS, and Eldakar, OT. (2011) High mating frequency and variation with lineage ratio in dependent-lineage harvester ants. Insectes Sociaux 58: 357 – 364. [Link]

Souza, RO, Del Lama, MA, Cervini, M, Mortari, N, Eltz, T, Zimmermann, Y, Bach, C, Brosi, BJ, Suni, SS, Quezada-Euán, JG, and Paxton RJ.  (2010)  Conservation genetics of neotropical pollinators revisited: microsatellite analysis suggests that diploid males are rare in orchid bees.  Evolution 64: 3318-26. [Link]

Suni, SS, and Gordon, DM. (2010) Fine-scale genetic structure and dispersal distance in the harvester ant Pogonomyrmex barbatus. Heredity 104: 168-173. [Link]

Schwander, TS, Cahan, SH, Suni, SS, and Keller, L. (2008) Mechanisms of reproductive isolation between an ant species of hybrid origin and its parents. Evolution 62: 1635-1643. [Link]

Suni, SS, Gignoux, C, and Gordon, DM. (2007) Male parentage in dependent-lineage populations of the harvester ant Pogonomyrmex barbatus, Molecular Ecology 16: 5149-5155. [Link]