Mitchell B. Cruzan mostly deals with Pollen, Botany, Ecology, Pollen tube and Louisiana iris. His Pollen source and Pollinator study, which is part of a larger body of work in Pollen, is frequently linked to Heterotrophic Growth, bridging the gap between disciplines. His Ecology study incorporates themes from Biological dispersal and Genetic variation.
His Pollen tube research integrates issues from Outcrossing, Nicotiana and Germination. Mitchell B. Cruzan has included themes like Sporophyte, Double fertilization, Ovule, Self-pollination and Density independent in his Germination study. His research integrates issues of Assortative mating, Hybrid and Hybrid zone in his study of Louisiana iris.
The scientist’s investigation covers issues in Botany, Ecology, Pollen, Pollen tube and Evolutionary biology. Botany and Reproductive success are frequently intertwined in his study. The various areas that Mitchell B. Cruzan examines in his Ecology study include Biological dispersal, Genetic variation and Genetic diversity.
His study involves Ovule and Outcrossing, a branch of Pollen. His study on Pollen tube also encompasses disciplines like
His scientific interests lie mostly in Biological dispersal, Seed dispersal, Evolutionary biology, Ecology and Genetics. His Seed dispersal research incorporates elements of Gene flow, Genetic structure, Vole and Geographical distance. The concepts of his Evolutionary biology study are interwoven with issues in Adaptation and Brachypodium sylvaticum, Botany, Introduced species.
In his research, Population genetics is intimately related to Population bottleneck, which falls under the overarching field of Introduced species. Mitchell B. Cruzan has researched Ecology in several fields, including Fecundity and Pollen dispersal. Mitchell B. Cruzan interconnects Vegetative reproduction and Geitonogamy in the investigation of issues within Genetics.
Mitchell B. Cruzan focuses on Biological dispersal, Evolutionary biology, Ecology, Pollen dispersal and Fecundity. The study incorporates disciplines such as Gene flow and Brachypodium sylvaticum in addition to Biological dispersal. His study in Gene flow is interdisciplinary in nature, drawing from both Human mediated dispersal, Range, Seed dispersal and Introduced species.
His Brachypodium sylvaticum research is multidisciplinary, incorporating elements of Adaptation, Genetic divergence, Allele and Phenotypic plasticity. His research in Ecology is mostly concerned with Asexual reproduction.
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ECOLOGICAL AND GENETIC ASSOCIATIONS IN AN IRIS HYBRID ZONE.
Paleoecology and coalescence: phylogeographic analysis of hypotheses from the fossil record.
Trends in Ecology and Evolution (2000)
Phytogeography of rare plant species endemic to the Southeastern United States.
GENETIC MARKERS IN PLANT EVOLUTIONARY ECOLOGY
Is biomass a reliable estimate of plant fitness
Applications in Plant Sciences (2017)
FLORAL DISPLAY IN PHYLA INCISA: CONSEQUENCES FOR MALE AND FEMALE REPRODUCTIVE SUCCESS.
Evidence for multiple sources of invasion and intraspecific hybridization in Brachypodium sylvaticum (Hudson) Beauv. in North America.
Molecular Ecology (2008)
Small Unmanned Aerial Vehicles (Micro-Uavs, Drones) in Plant Ecology
Applications in Plant Sciences (2016)
ASSORTATIVE MATING AND NATURAL SELECTION IN AN IRIS HYBRID ZONE.
Reproductive interactions between hybridizing irises: analyses of pollen-tube growth and fertilization success
American Journal of Botany (1994)
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