THE ANTAGONISTIC AND MUTUALISTIC PLANT-INSECT INTERACTIONS OF PITCHER'S THISTLE (CIRSIUM PITCHERI [TORR. EX EAT.] TORR. & A. GRAY, ASTERACEAE), A FEDERALLY THREATENED GREAT LAKES DUNE AND COBBLE SHORE ENDEMIC PLANT. PDF Download
Are you looking for read ebook online? Search for your book and save it on your Kindle device, PC, phones or tablets. Download THE ANTAGONISTIC AND MUTUALISTIC PLANT-INSECT INTERACTIONS OF PITCHER'S THISTLE (CIRSIUM PITCHERI [TORR. EX EAT.] TORR. & A. GRAY, ASTERACEAE), A FEDERALLY THREATENED GREAT LAKES DUNE AND COBBLE SHORE ENDEMIC PLANT. PDF full book. Access full book title THE ANTAGONISTIC AND MUTUALISTIC PLANT-INSECT INTERACTIONS OF PITCHER'S THISTLE (CIRSIUM PITCHERI [TORR. EX EAT.] TORR. & A. GRAY, ASTERACEAE), A FEDERALLY THREATENED GREAT LAKES DUNE AND COBBLE SHORE ENDEMIC PLANT. by Jaclyn N Inkster. Download full books in PDF and EPUB format.
Author: Jaclyn N Inkster Publisher: ISBN: Category : Languages : en Pages : 77
Book Description
Biological control is one of the tools used for integrated pest management of invasive plant species but it is not without risks to native plants. I researched the non-target impacts of the biological control agent, the seed head weevil Larinus planus (Coleoptera: Curculionidae) on the Great Lakes dune and cobble shore endemic threatened thistle, Cirsium pitcheri (Asteraceae). Pitcher's thistle is an herbaceous perennial monocarpic plant with no means of vegetative reproduction, relying solely on seed set for population persistence. The seed head weevil is univoltine and lays eggs in thistle heads. The developing larva chews the ovules or seeds before emerging as an adult to overwinter in leaf litter. I repeatedly surveyed Pitcher's thistle plants from three populations in northern lower Michigan for impacts. The insect oviposits on thistle heads from mid-June to early July, before C. pitcheri flowering. Heads that received oviposition were on average 12-14 mm in diameter. Approximately 32% of the 1,695 heads surveyed had oviposition. A subset of dissected heads had 56% weevil egg mortality. With weevil survival, the number of filled seeds was reduced by 62%. A generalized linear mixed binary logistic model reported date of oviposition and size of heads as significant predictors of oviposition on heads. I tested the effectiveness of an organic insect deterrent, Surround[registered] WP, in reducing impacts on C. pitcheri. The kaolin clay is mixed in water and then applied to the plant create a protective film after drying. I first needed to confirm that kaolin clay did not negatively impact pollinator visits, which are important for seed set. To test this, I performed simultaneous 10 min observations on kaolin clay treated plants and untreated plants. Kaolin clay did not deter insect visits, affect species richness of visiting insects or change the length of the visit. To test the effectiveness in deterring the weevil I applied either kaolin clay or a water control to pairs of heads at Petoskey State Park. The clay-treated heads had significantly fewer oviposition holes, and were less likely to have oviposition holes at all. There was no significant difference in the mean number of chewed seeds between treatments; however, there were significantly more filled seeds in heads treated with kaolin clay than in water-treated heads. I recommend the application of kaolin clay to reproductive Pitcher's thistle plants mid-June to early July every 3-7 days on heads not yet flowering. Reduction of impact from Larinus planus is critical for conservation of this species and may also be important for the entire network of insect flower visitors in the dune ecosystem. Pitcher's thistle flowers from late-June to early August. Many species of insect from several taxonomic orders visit Pitcher's thistle flower heads indicating a generalist pollination syndrome. Generalist plants are often important floral resources that maintain plant-pollinator network structure, potentially as keystone species. I hypothesized that Pitcher's thistle is an important floral resource for the flower-visiting insects during its flowering period. To test this hypothesis I performed insect visitor observations on all the insect pollinated plants in randomly selected plots in the dunes of Sturgeon Bay, Wilderness State Park, MI. C. pitcheri received more visits and had more visitor species than any other plant in the network by a large margin. I used R Bipartite package to calculate species-level network metrics such as species strength and weighted connectedness and betweenness. I consistently found Pitcher's thistle to have the highest scores. The index d' rated Pitcher's thistle as the most generalized, i.e., received the most insect visitors. C. pitcheri also had a disproportionate effect on the flower-visiting insect fauna, relative to the abundance of its floral resources (number of open flowers, number of plants observed). Other plants in plant-pollinator networks have been shown to be important, perhaps keystone species, using this technique of species-level network metrics. Pitcher's thistle is an important species for the plant-insect network of the dune ecosystem. Insects and the flowering plants they visit and should be prioritized for conservation.
Author: Jaclyn N Inkster Publisher: ISBN: Category : Languages : en Pages : 77
Book Description
Biological control is one of the tools used for integrated pest management of invasive plant species but it is not without risks to native plants. I researched the non-target impacts of the biological control agent, the seed head weevil Larinus planus (Coleoptera: Curculionidae) on the Great Lakes dune and cobble shore endemic threatened thistle, Cirsium pitcheri (Asteraceae). Pitcher's thistle is an herbaceous perennial monocarpic plant with no means of vegetative reproduction, relying solely on seed set for population persistence. The seed head weevil is univoltine and lays eggs in thistle heads. The developing larva chews the ovules or seeds before emerging as an adult to overwinter in leaf litter. I repeatedly surveyed Pitcher's thistle plants from three populations in northern lower Michigan for impacts. The insect oviposits on thistle heads from mid-June to early July, before C. pitcheri flowering. Heads that received oviposition were on average 12-14 mm in diameter. Approximately 32% of the 1,695 heads surveyed had oviposition. A subset of dissected heads had 56% weevil egg mortality. With weevil survival, the number of filled seeds was reduced by 62%. A generalized linear mixed binary logistic model reported date of oviposition and size of heads as significant predictors of oviposition on heads. I tested the effectiveness of an organic insect deterrent, Surround[registered] WP, in reducing impacts on C. pitcheri. The kaolin clay is mixed in water and then applied to the plant create a protective film after drying. I first needed to confirm that kaolin clay did not negatively impact pollinator visits, which are important for seed set. To test this, I performed simultaneous 10 min observations on kaolin clay treated plants and untreated plants. Kaolin clay did not deter insect visits, affect species richness of visiting insects or change the length of the visit. To test the effectiveness in deterring the weevil I applied either kaolin clay or a water control to pairs of heads at Petoskey State Park. The clay-treated heads had significantly fewer oviposition holes, and were less likely to have oviposition holes at all. There was no significant difference in the mean number of chewed seeds between treatments; however, there were significantly more filled seeds in heads treated with kaolin clay than in water-treated heads. I recommend the application of kaolin clay to reproductive Pitcher's thistle plants mid-June to early July every 3-7 days on heads not yet flowering. Reduction of impact from Larinus planus is critical for conservation of this species and may also be important for the entire network of insect flower visitors in the dune ecosystem. Pitcher's thistle flowers from late-June to early August. Many species of insect from several taxonomic orders visit Pitcher's thistle flower heads indicating a generalist pollination syndrome. Generalist plants are often important floral resources that maintain plant-pollinator network structure, potentially as keystone species. I hypothesized that Pitcher's thistle is an important floral resource for the flower-visiting insects during its flowering period. To test this hypothesis I performed insect visitor observations on all the insect pollinated plants in randomly selected plots in the dunes of Sturgeon Bay, Wilderness State Park, MI. C. pitcheri received more visits and had more visitor species than any other plant in the network by a large margin. I used R Bipartite package to calculate species-level network metrics such as species strength and weighted connectedness and betweenness. I consistently found Pitcher's thistle to have the highest scores. The index d' rated Pitcher's thistle as the most generalized, i.e., received the most insect visitors. C. pitcheri also had a disproportionate effect on the flower-visiting insect fauna, relative to the abundance of its floral resources (number of open flowers, number of plants observed). Other plants in plant-pollinator networks have been shown to be important, perhaps keystone species, using this technique of species-level network metrics. Pitcher's thistle is an important species for the plant-insect network of the dune ecosystem. Insects and the flowering plants they visit and should be prioritized for conservation.
Author: Erin E. Fegley Publisher: ISBN: Category : Beetles Languages : en Pages : 99
Book Description
Better understanding of the ecological and evolutionary consequences of plant-insect interactions has important applications in ecology, agriculture, and pest management. Larinus planus Fabricius (Coleoptera: Curculionidae), a Eurasian seed predator, was distributed in the U.S. and Canada as a biocontrol for weedy thistles. It now has non-target impacts on natives, including the federally listed shoreline endemic, Cirsium pitcheri [Torr. ex Eaton] Torr. and A. Gray (Pitcher's thistle). Females weevils lay eggs (oviposit) in floral heads; larvae then consume ovules and seeds as they develop. I asked: 1) What factors put some C. pitcheri plants at risk from L. planus? and 2) How might non-target impacts affect population dynamics? Damage from Larinus planus on flowering C. pitcheri occurred mostly in the northern and shoreward dunes. Impact of L. planus on C. pitcheri can be influenced by: 1) abundance of C. pitcheri as host plant and 2) other plant associates in the community. I measured these factors in 77 randomly distributed 100 m2 plots in two state parks in northern lower Michigan, including a long-term study site at Sturgeon Bay, Wilderness State Park. Larinus planus damage was not significantly associated with abundance of flowering C. pitcheri or percent cover of other plant associates. I also used discriminant function analysis (DFA) to ask which C. pitcheri plants were at risk of damage by L. planus including the factors of northing and easting coordinates, host abundance, and percent vegetation cover. The DFA forecasted 73.1% of plants that would have received damage from L. planus. We rely on the use of models to predict population size and viability for the conservation of rare species. I compared L. planus impacts on a C. pitcheri population using two population models: stage-based matrix (SBM) and integral projection (IPM) models. SBM has some biases; IPM is offered as an alternative model. The models showed similar trends in yearly population growth rates and predicted similar time to extinction for C. pitcheri populations. Seed predation by weevils decreased population time to extinction in both models, but SBM showed a greater decrease than IPM. My elasticity analysis also confirms earlier suggestions that survival of the smallest individuals most affects population growth and should be the focus of conservation. Effective pest management, including unintended damage from biocontrol agents, requires extensive biological knowledge of plant-insect interactions. For L. planus, host plant abundance and other plant associates do not appear to directly influence host choice; however, sample sizes and use of non-parametric analyses may limit the strength of my inferences. Further study is needed on behavior, population dynamics, and overwintering of this weevil. For C. pitcheri, less intensive stage-based modelling offers outcomes similar to integral projection approaches and remains a viable tool for conservation. Further development of appropriate assessment of Pitcher's thistle fecundity, relative to plant size and seedling recruitment, is a needed next step. Population-level impacts from seed predators are significant, no matter what the model, and are greater for rare plants. Assessment of new threats from regular monitoring and adaptive management are critical for effective conservation, particularly in a time of global change.
Author: Monica Paniagua Montoya Publisher: ISBN: Category : Compositae Languages : en Pages : 98
Book Description
Plant associations occur when host selection of a focal plant is reduced or increased by the presence of another plant species. Larinus planus is an invasive weevil whose larvae feed in the flower heads of native and federally threatened Pitcher's thistle (Cirsium pitcheri). Studies have linked the presence of neighboring plants to increased host selection of Pitcher's thistle by the weevil, but the factors contributing to host selection remain unknown. In our study, we determined if there were differences among abiotic factors, host selection and weevil behavior at Pitcher's thistles surrounded by beach grass, sand and at high elevation.
![THE ANTAGONISTIC AND MUTUALISTIC PLANT-INSECT INTERACTIONS OF PITCHER'S THISTLE (CIRSIUM PITCHERI [TORR. EX EAT.] TORR. & A. GRAY, ASTERACEAE), A FEDERALLY THREATENED GREAT LAKES DUNE AND COBBLE SHORE ENDEMIC PLANT. PDF](https://books.google.com/books/content/images/frontcover/zo2DAQAACAAJ?fife=w150-h200)
Author: Jaclyn N Inkster![THE ANTAGONISTIC AND MUTUALISTIC PLANT-INSECT INTERACTIONS OF PITCHER'S THISTLE (CIRSIUM PITCHERI [TORR. EX EAT.] TORR. & A. GRAY, ASTERACEAE), A FEDERALLY THREATENED GREAT LAKES DUNE AND COBBLE SHORE ENDEMIC PLANT. PDF](https://books.google.com/books/content/images/frontcover/zo2DAQAACAAJ?fife=w80-h100)
Author: Jaclyn N Inkster
Author: Erin E. Fegley
Author: Monica Paniagua Montoya