Moderate Levels of Urbanization Increase Insect Abundance and Pollen Removal in Common Milkweed (Asclepias syriaca)

Authors' Affiliations

David Rockow, Department of Biological Sciences, College of Arts and Sciences, East Tennessee State University, Johnson City, TN. Gerardo Arceo-Gomez, Department of Biological Sciences, College of Arts and Sciences, East Tennessee State University, Johnson City, TN.

Location

Culp Center Rm. 304

Start Date

4-25-2023 2:40 PM

End Date

4-25-2023 3:00 PM

Faculty Sponsor’s Department

Biological Sciences

Name of Project's Faculty Sponsor

Gerardo Arceo-Gomez

Additional Sponsors

Dr. Thomas Jones Dr. Dhirendra Kumar Dr. Carlos Martel

Classification of First Author

Graduate Student-Master’s

Competition Type

Competitive

Type

Oral Presentation

Project's Category

Other Nat Resources and Ag and Env Sciences

Abstract or Artist's Statement

Urbanization, the conversion of natural habitat into area fit for human exploitation, is the greatest contemporary threat to natural ecosystems. With urbanization only projected to increase in magnitude as human populations continue to grow it is becoming increasingly important to evaluate the potential negative impacts urbanization can have on vital ecosystem functions and services.

One such important ecosystem service is pollination. Roughly 87.5% of flowering plants are animal pollinated, with pollination contributing over $175 billion dollars to the global economy each year. The fundamental ecologic and economic importance of pollination, coupled with the growing threat of urbanization, makes it important to better understand how pollination success may be impacted by urban development. Though, studies on the impact of urbanization on pollination success vary wildly in their findings, with some studies finding a negative impact of urbanization, while others find a negligible or even positive impact. This discordance in past studies is likely due to the fact that pollination studies typically focus on just one aspect of the pollination process, whether that be pollinator community, pollen removal/deposition, or fruit/seed production. Urbanization, however, may induce differential impacts across different stages of the pollination process. Focusing on just one pollination aspect may limit our understanding of the potential underlying mechanisms urbanization may impart on different stages of the pollination process. The goal of this study was to evaluate multiple aspects of pollination success across an urbanization gradient. Specifically, pollinator community (in terms of visitation rate and community composition), pollen removal/deposition, and fruit/seed production were surveyed across 12 common milkweed (Asclepias syriaca) populations, six of which were in natural habitats and six of which were in areas of moderate urbanization. By evaluating all pollination aspects together we can pinpoint which step(s) of the pollination process are impacted by urbanization, which will inform decisions on how to best conserve the integrity of pollination in anthropogenically disturbed environments.

Overall, urbanization increased pollinator visitation rate (0.151 visits per minute per flower in urban populations, compared to 0.067 at natural populations), and altered pollinator composition, with more small bees and beetles present in more urbanized areas. Pollen removal also increased with urbanization (2.00 pollen removals per flower in urban populations, compared to 1.41 at natural populations), while pollen deposition, fruit production, and seed production were unchanged by urbanization. Thus, suggesting that the more abundant pollinators in more urbanized areas were effective at removing pollen, but ineffective at depositing pollen, resulting in no change in reproductive output (i.e., equal fruit and seed production). The results of this study suggest that increased urbanization can variably impact various steps in the pollination process, thus stressing the importance of studying multiple pollination aspects in tandem.

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Apr 25th, 2:40 PM Apr 25th, 3:00 PM

Moderate Levels of Urbanization Increase Insect Abundance and Pollen Removal in Common Milkweed (Asclepias syriaca)

Culp Center Rm. 304

Urbanization, the conversion of natural habitat into area fit for human exploitation, is the greatest contemporary threat to natural ecosystems. With urbanization only projected to increase in magnitude as human populations continue to grow it is becoming increasingly important to evaluate the potential negative impacts urbanization can have on vital ecosystem functions and services.

One such important ecosystem service is pollination. Roughly 87.5% of flowering plants are animal pollinated, with pollination contributing over $175 billion dollars to the global economy each year. The fundamental ecologic and economic importance of pollination, coupled with the growing threat of urbanization, makes it important to better understand how pollination success may be impacted by urban development. Though, studies on the impact of urbanization on pollination success vary wildly in their findings, with some studies finding a negative impact of urbanization, while others find a negligible or even positive impact. This discordance in past studies is likely due to the fact that pollination studies typically focus on just one aspect of the pollination process, whether that be pollinator community, pollen removal/deposition, or fruit/seed production. Urbanization, however, may induce differential impacts across different stages of the pollination process. Focusing on just one pollination aspect may limit our understanding of the potential underlying mechanisms urbanization may impart on different stages of the pollination process. The goal of this study was to evaluate multiple aspects of pollination success across an urbanization gradient. Specifically, pollinator community (in terms of visitation rate and community composition), pollen removal/deposition, and fruit/seed production were surveyed across 12 common milkweed (Asclepias syriaca) populations, six of which were in natural habitats and six of which were in areas of moderate urbanization. By evaluating all pollination aspects together we can pinpoint which step(s) of the pollination process are impacted by urbanization, which will inform decisions on how to best conserve the integrity of pollination in anthropogenically disturbed environments.

Overall, urbanization increased pollinator visitation rate (0.151 visits per minute per flower in urban populations, compared to 0.067 at natural populations), and altered pollinator composition, with more small bees and beetles present in more urbanized areas. Pollen removal also increased with urbanization (2.00 pollen removals per flower in urban populations, compared to 1.41 at natural populations), while pollen deposition, fruit production, and seed production were unchanged by urbanization. Thus, suggesting that the more abundant pollinators in more urbanized areas were effective at removing pollen, but ineffective at depositing pollen, resulting in no change in reproductive output (i.e., equal fruit and seed production). The results of this study suggest that increased urbanization can variably impact various steps in the pollination process, thus stressing the importance of studying multiple pollination aspects in tandem.