Your search keyword '"Magness, Dawn R."' showing total 5 results

1. Drought as an emergent driver of ecological transformation in the twenty-first century.

Author

Moss, Wynne E, Crausbay, Shelley D, Rangwala, Imtiaz, Wason, Jay W, Trauernicht, Clay, Stevens-Rumann, Camille S, Sala, Anna, Rottler, Caitlin M, Pederson, Gregory T, Miller, Brian W, Magness, Dawn R, Littell, Jeremy S, Frelich, Lee E, Frazier, Abby G, Davis, Kimberley T, Coop, Jonathan D, Cartwright, Jennifer M, and Booth, Robert K

Subjects

ECOLOGICAL disturbances, PLANT populations, LAND management, TWENTY-first century, PLANT growth

Abstract

Under climate change, ecosystems are experiencing novel drought regimes, often in combination with stressors that reduce resilience and amplify drought's impacts. Consequently, drought appears increasingly likely to push systems beyond important physiological and ecological thresholds, resulting in substantial changes in ecosystem characteristics persisting long after drought ends (i.e. ecological transformation). In the present article, we clarify how drought can lead to transformation across a wide variety of ecosystems including forests, woodlands, and grasslands. Specifically, we describe how climate change alters drought regimes and how this translates to impacts on plant population growth, either directly or through drought's interactions with factors such as land management, biotic interactions, and other disturbances. We emphasize how interactions among mechanisms can inhibit postdrought recovery and can shift trajectories toward alternate states. Providing a holistic picture of how drought initiates long-term change supports the development of risk assessments, predictive models, and management strategies, enhancing preparedness for a complex and growing challenge. [ABSTRACT FROM AUTHOR]

Published

2024

2. Using topographic geodiversity to connect conservation lands in the Central Yukon, Alaska

Author

Magness, Dawn R., Sesser, Amanda L., and Hammond, Tim

Published

2018

3. The dynamics of a changing Lutz spruce (Picea × lutzii) hybrid zone on the Kenai Peninsula, Alaska.

Author

Morton, John M., Wolf, Diana E., Bowser, Matthew L., Takebayashi, Naoki, and Magness, Dawn R.

Subjects

HYBRID zones, SITKA spruce, POLLEN, WHITE spruce, GLOBAL warming, SPRUCE

Abstract

We investigated the genetic makeup of Lutz spruce, a natural hybrid between white and Sitka spruce on the Kenai Peninsula, Alaska. Microsatellites indicate 72% of individuals sampled had predominantly white spruce ancestry, whereas 14% had predominantly Sitka spruce ancestry; some individuals classified as white spruce had Sitka spruce plastid genotypes. As Picea mitochondria are maternally inherited and plastids are paternally inherited, it appears that white spruce was the ancestral seed parent of nearly all spruce on the western peninsula, whereas Sitka spruce alleles originated from pollen. Pollen records show that white spruce colonized the western peninsula ∼8500 YBP from glacial refugium, whereas Sitka spruce arrived on the eastern peninsula ∼4000 YBP after migrating up the Pacific coast. Our data suggest that Sitka spruce colonization west of the Kenai Mountains may have occurred not via seed dispersal but by long distance transport of wind-borne pollen and subsequent hybridization with established white spruce populations. Hybridization was an important mechanism that allowed Sitka spruce to expand the leading edge of its range in response to historical climate change. As the climate continues to warm, climate envelope modeling suggests Lutz spruce may ultimately displace white spruce on the western peninsula even as Sitka spruce is constrained to the eastern peninsula where it will continue to hybridize. [ABSTRACT FROM AUTHOR]

Published

2023

4. Science Agenda to Inform Natural Resource Management Decisions in an Era of Ecological Transformation.

Author

Crausbay, Shelley D, Sofaer, Helen R, Cravens, Amanda E, Chaffin, Brian C, Clifford, Katherine R, Gross, John E, Knapp, Corrine N, Lawrence, David J, Magness, Dawn R, Miller-Rushing, Abraham J, Schuurman, Gregor W, and Stevens-Rumann, Camille S

Subjects

NATURAL resources management, CONSERVATION of natural resources, MARINE ecology, CLIMATE change

Abstract

Earth is experiencing widespread ecological transformation in terrestrial, freshwater, and marine ecosystems that is attributable to directional environmental changes, especially intensifying climate change. To better steward ecosystems facing unprecedented and lasting change, a new management paradigm is forming, supported by a decision-oriented framework that presents three distinct management choices: resist, accept, or direct the ecological trajectory. To make these choices strategically, managers seek to understand the nature of the transformation that could occur if change is accepted while identifying opportunities to intervene to resist or direct change. In this article, we seek to inspire a research agenda for transformation science that is focused on ecological and social science and based on five central questions that align with the resist–accept–direct (RAD) framework. Development of transformation science is needed to apply the RAD framework and support natural resource management and conservation on our rapidly changing planet. [ABSTRACT FROM AUTHOR]

Published

2022

5. Arthropod and oligochaete assemblages from grasslands of the southern Kenai Peninsula, Alaska.

Author

Bowser, Matthew L., Morton, John M., Hanson, John Delton, Magness, Dawn R., and Okuly, Mallory

Subjects

TAIGAS, ARTHROPODA, CLIMATE change, GRASSLANDS

Abstract

Background By the end of this century, the potential climate-biome of the southern Kenai Peninsula is forecasted to change from transitional boreal forest to prairie and grasslands, a scenario that may already be playing out in the Caribou Hills region. Here, spruce (Picea × lutzii Little [glauca × sitchensis]) forests were heavily thinned by an outbreak of the spruce bark beetle (Dendroctonus rufipennis (Kirby, 1837)) and replaced by the native but invasive grass species, Calamagrostis canadensis (Michx.) P. Beauv. As part of a project designed to delimit and characterize potentially expanding grasslands in this region, we sought to characterize the arthropod and earthworm communities of these grasslands. We also used this sampling effort as a trial of applying high-throughput sequencing metabarcoding methods to a real-world inventory of terrestrial arthropods. New information We documented 131 occurrences of 67 native arthropod species at ten sites, characterizing the arthropod fauna of these grasslands as being dominated by Hemiptera (60% of total reads) and Diptera (38% of total reads). We found a single exotic earthworm species, Dendrobaena octaedra (Savigny, 1826), at 30% of sites and one unidentified enchytraeid at a single site. The utility of high-throughput sequencing metabarcoding as a tool for bioassessment of terrestrial arthropod assemblages was confirmed. [ABSTRACT FROM AUTHOR]

Published

2017