The effects of the decline of a keystone plant species on a dune community plant-pollinator network

Sandacz, Dan; Vitt, Pati; Knight, Tiffany M.; CaraDonna, Paul; Havens, Kayri

doi:10.3389/fcosc.2023.1183976

Cited by 2 publications

(1 citation statement)

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“…Gray) is endemic to the dune system of the western Great Lakes. This plant is considered a keystone species because it provides critical resources to a wide variety of insect pollinators (Jolls et al., 2019; Sandacz et al., 2023; Vitt et al., 2020). During periods of low lake levels, C. pitcheri colonizes the near‐shore habitats in its preferred open sandy habitat, while the species is constrained to the open higher dunes during periods of high lake levels (Loveless, 1984; McEachern, 1992).…”

Section: Introductionmentioning

confidence: 99%

Demography and threats to population growth of Cirsium pitcheri, a threatened dune plant, in Wisconsin

Vitt,

Girdler,

Gorra

et al. 2024

Ecology and Evolution

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Multi‐year and multi‐site demographic data for rare plants allow researchers to observe threats and project population growth rates and thus long‐term persistence of the species, generating knowledge, which allows for effective conservation planning. Demographic studies across more than a decade are extremely rare but allow for the effects of threats to be observed and assessed within the context of interannual environmental variation. We collected demographic data on the Threatened plant Cirsium pitcheri in two sites from 2011–2022. These sites were chosen because one exhibited the presence of non‐native seed predators while the other did not, and we hypothesized that we would see declines and potentially extinction of the population threatened by predation. Over the course of our study, we observed additional threats, such as human trampling and high lake levels, which led to significant erosion, sand burial, and storm damage to plants. We find high interannual variation in vital rates and population growth rates for both populations, which mask the overall effects of predation. We observed dramatic declines in plant survivorship and population growth rates in both sites in the years with high lake levels. We conclude that high lake levels, which are expected to become more frequent with climate change, pose a significant threat to all near‐shore populations of C. pitcheri.

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Section: Introductionmentioning

confidence: 99%

Demography and threats to population growth of Cirsium pitcheri, a threatened dune plant, in Wisconsin

Vitt,

Girdler,

Gorra

et al. 2024

Ecology and Evolution

Self Cite

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The role of soil surface in a sustainable semiarid ecosystem

Pal,

Banerjee,

Melnik

2024

PLoS ONE

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Patterns in a semiarid ecosystem are important because they directly and indirectly affect ecological processes, biodiversity, and ecosystem resilience. Understanding the causes and effects of these patterns is critical for long-term land surface management and conservation efforts in semiarid regions, which are especially sensitive to climate change and human-caused disturbances. In addition, developing mathematical models is challenging because of the involvement of several interacting components within an ecosystem. It is known that there is a regular connection between the vegetation and the living species in a habitat since some animals evolved to live in a semiarid ecosystem and rely on plants for food. In this work, we have constructed a coupled mathematical model to connect the water resource, vegetation, and living organisms and have investigated how the soil surface affects the resulting patterns in the long term. This study contributes to a better understanding of ecological patterns and processes in semiarid environments by shedding light on the complex interaction mechanisms that depend on the structure of semiarid ecosystems. For example, the impact of intensive rainfall on ecosystem dynamics can be profound, triggering critical transitions and leading to significant yield loss. The energy lost as it moves from one trophic level to the next, the potential for diversity to exacerbate species extinction rates, and the role of water flow in driving the system towards more robust stripe pattern formations are all significant factors. Despite these complexities, the findings offer critical insights into the influence of efforts to enhance ecosystem resilience and adapt to the challenges of climate change and human activities.

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The effects of the decline of a keystone plant species on a dune community plant-pollinator network

Cited by 2 publications

References 82 publications

Demography and threats to population growth of Cirsium pitcheri, a threatened dune plant, in Wisconsin

Demography and threats to population growth of Cirsium pitcheri, a threatened dune plant, in Wisconsin

The role of soil surface in a sustainable semiarid ecosystem

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