Location
Thesis Presentation- College of Science and Mathematics
Document Type and Release Option
Thesis Presentation (Open Access)
Faculty Mentor
Dr. John Schenk
Faculty Mentor Email
.
Presentation Year
2020
Start Date
4-2020 12:00 AM
End Date
5-2020 12:00 AM
Keywords
Georgia Southern University, Honors Program, Thesis Presentation
Description
Amphitropical disjunct plants are species that occur in both North and South America but not in the intermediate equatorial region. How amphitropical species dispersed across the Americas to their current distribution still remains uncertain. To explain amphitropical distributions, three hypotheses were developed to test that (1) species dispersed successively through island hopping across the tropical zone in temperate microhabitats (= stepping stones), (2) species came to their current distribution through vicariance, or (3) species dispersed by a single long distance dispersal event. Twenty five amphitropical species were studied to infer their historical distributions with species distribution models in MaxEnt. Distribution models for each amphitropical species were estimated under three different timelines: the current climate, the last glacial maximum (22,000 years ago), and the last interglacial maximum (120,000–140,000 years ago). Ecological niche models were generated in MaxEnt with 19 bioclimate variables from the WorldClim database. Across the three time slices, the vicariance hypothesis was rejected in all but one species for one of its time slice. In 13 experiments, the long distance dispersal and vicariance hypotheses were rejected in favor of the stepping stone hypothesis. In 37 experiments, the stepping stone and vicariance hypotheses were rejected in favor of long distance dispersal. There were three species that could have dispersed by shorter-distance-dispersal events via intermediate dispersal from Mexico. Although our results suggest that long distance dispersal was the most dominant mechanism of dispersal among amphitropical species, they also convey that that numerous shorter-distance-dispersal events via intermediate, favorable populations are an underappreciated mode of dispersal in amphitropical species.
Academic Unit
College of Science and Mathematics
Species Dispersal Modes in Amphitropical Plant Species of North and South America
Thesis Presentation- College of Science and Mathematics
Amphitropical disjunct plants are species that occur in both North and South America but not in the intermediate equatorial region. How amphitropical species dispersed across the Americas to their current distribution still remains uncertain. To explain amphitropical distributions, three hypotheses were developed to test that (1) species dispersed successively through island hopping across the tropical zone in temperate microhabitats (= stepping stones), (2) species came to their current distribution through vicariance, or (3) species dispersed by a single long distance dispersal event. Twenty five amphitropical species were studied to infer their historical distributions with species distribution models in MaxEnt. Distribution models for each amphitropical species were estimated under three different timelines: the current climate, the last glacial maximum (22,000 years ago), and the last interglacial maximum (120,000–140,000 years ago). Ecological niche models were generated in MaxEnt with 19 bioclimate variables from the WorldClim database. Across the three time slices, the vicariance hypothesis was rejected in all but one species for one of its time slice. In 13 experiments, the long distance dispersal and vicariance hypotheses were rejected in favor of the stepping stone hypothesis. In 37 experiments, the stepping stone and vicariance hypotheses were rejected in favor of long distance dispersal. There were three species that could have dispersed by shorter-distance-dispersal events via intermediate dispersal from Mexico. Although our results suggest that long distance dispersal was the most dominant mechanism of dispersal among amphitropical species, they also convey that that numerous shorter-distance-dispersal events via intermediate, favorable populations are an underappreciated mode of dispersal in amphitropical species.
Comments
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