Your search keyword '"assisted migration"' showing total 12 results

1. Small translocations of endangered Gallinula galeata sandvicensis (Hawaiian Common Gallinule) may be sufficient to generate a viable reintroduced population.

Author

Rees, Charles B van and Reed, J Michael

Subjects

*POPULATION viability analysis, *BIOLOGICAL extinction, *WETLAND conservation, *ENDANGERED species, *WETLAND management

Abstract

Where stable source populations of at-risk species exist, translocation may be a reasonable strategy for re-establishing extirpated populations. However, the success rates of such efforts are mixed, necessitating thorough preliminary investigation. Stochastic population modeling can be a useful method of assessing the potential success of translocations. Here, we report on the results of modeling translocation success for the Gallinula galeata sandvicensis or 'alae 'ula (Hawaiian Common Gallinule), an endangered waterbird endemic to the Hawaiian Islands. Using updated vital rates, we constructed a model simulating 3 existing extant (wild) source populations and a hypothetical recipient site on another island. We then projected the effects of 6 different translocation scenarios and sensitivity of the results to variation of three important demographic parameters on the probability of extinction (PE) of the reintroduced and donor populations. Larger translocations, of at least 30 birds, had low probability of extinction in the reintroduced population, but raised extinction risk of the smallest source population. Spacing out translocations in time (e.g. 10 birds translocated in total in 3 installments over 9 years), led to lower PE than translocating all individuals at once (i.e. bulk translocations) for both the source and reintroduced populations. Brood size and hatch-year juvenile survival had a disproportionate impact on reintroduced population viability. Importantly, the reported juvenile survival rate is very near the threshold for population failure. This suggests that post-introduction and subsequent management of wetlands, particularly predator control, could be critical to reintroduction success. We recommend that individuals should be translocated from multiple, genetically distinct subpopulations to reduce the possibility of inbreeding depression. Based on this analysis, the recipient wetland should be sufficiently large that it can support at least 25 pairs of gallinules. Based on recent estimates of population densities on O'ahu, such a wetland would need to be between 3.75 and 74.6 ha. [ABSTRACT FROM AUTHOR]

Published

2024

2. A lack of ecological diversity in forest nurseries limits the achievement of tree-planting objectives in response to global change.

Author

Clark, Peter W, D'Amato, Anthony W, Palik, Brian J, Woodall, Christopher W, Dubuque, Paul A, Edge, Gregory J, Hartman, Jason P, Fitts, Lucia A, Janowiak, Maria K, Harris, Lucas B, Montgomery, Rebecca A, Reinikainen, Mike R, and Zimmerman, Christopher L

Subjects

*FOREST biodiversity, *FOREST management, *FOREST restoration, *TREE planting, *REFORESTATION

Abstract

Tree planting is increasingly being adopted as a strategy to address global change, including mitigation, adaptation, and restoration. Although reforestation has long been central to forest management, the desired outcomes of traditional and emerging tree-planting strategies face barriers linked to a lack of ecological diversity in forest nurseries. In the present article, we outline how insufficient diversity in nursery seedlings among species, genotypes, and stock types has impeded and will continue to hinder the implementation of diverse ecological or climate-suitable planting targets, now and into the future. To support this, we demonstrate disparities in seedling diversity among nursery inventories, focusing on the northern United States. To overcome these challenges, we recommend avenues for improving policy and financing, informational resources and training, and research and monitoring. Absent these advances, current seedling production and practices will fall short of ambitious tree-planting goals proposed for forest restoration and global change mitigation and adaptation. [ABSTRACT FROM AUTHOR]

Published

2023

3. Genetic rescue remains underused for aiding recovery of federally listed vertebrates in the United States.

Author

Fitzpatrick, Sarah W, Mittan-Moreau, Cinnamon, Miller, Madison, and Judson, Jessica M

Subjects

*GENE flow, *INBREEDING, *ENDANGERED species, *VERTEBRATES

Abstract

Restoring gene flow among fragmented populations is discussed as a potentially powerful management strategy that could reduce inbreeding depression and cause genetic rescue. Yet, examples of assisted migration for genetic rescue remain sparse in conservation, prompting several outspoken calls for its increased use in genetic management of fragmented populations. We set out to evaluate the extent to which this strategy is underused and to determine how many imperiled species would realistically stand to benefit from genetic rescue , focusing on federally threatened or endangered vertebrate species in the United States. We developed a " genetic rescue suitability index (GR index) " based on concerns about small population problems relative to risks associated with outbreeding depression and surveyed the literature for 222 species. We found that two-thirds of these species were good candidates for consideration of assisted migration for the purpose of genetic rescue according to our suitability index. Good candidate species spanned all taxonomic groups and geographic regions, though species with more missing data tended to score lower on the suitability index. While we do not recommend a prescriptive interpretation of our GR index, we used it here to establish that assisted migration for genetic rescue is an underused strategy. For example, we found in total, " genetic rescue " was only mentioned in 11 recovery plans and has only been implemented in 3 of the species we surveyed. A potential way forward for implementation of this strategy is incorporating genetic rescue as a priority in USFWS recovery documentation. In general, our results suggest that although not appropriate for all imperiled species, many more species stand to benefit from a conservation strategy of assisted migration for genetic rescue than those for which it has previously been considered or implemented. [ABSTRACT FROM AUTHOR]

Published

2023

4. Geographic Variation in Survival and Growth of Atlantic White-Cedar (Chamaecyparis Thyoides [L.] B.S.P.): Implications for Artificial Regeneration of a Declining Species.

Author

Olson, Matthew, Lubas, Andrew, and Mylecraine, Kristin

Subjects

GLOBAL warming, LATITUDE, SPECIES, WILDLIFE conservation, REFORESTATION

Abstract

Atlantic white-cedar (Chamaecyparis thyoides [L.] B.S.P.; AWC), a wetland tree species native to the eastern United States, is declining rangewide. This decline has stimulated interest in restoring AWC in parts of its range. However, restoration could benefit from more research on this species, especially that focus on where to source seedlings for artificial reforestation. This study presents results out to years 18–20 from a southern New Jersey common garden established in the early 2000s as part of the first rangewide provenance planting of AWC. The goal of this research was to expand our understanding of intraspecific variation in AWC linked to the geographic origin of genetic sources. Results indicated that genotype performance was linked to their geographic origin and that local sources were among the top performers when taking all metrics into consideration (e.g. survival, height, basal area). Top-performing provenances were sourced within plus or minus two decimal degrees latitude of the planting site. Although local sources remain suitable for artificial regeneration of this species in southern New Jersey, nearby southern sources could be deployed to achieve out-planting success and conservation of this imperiled species in a warming climate. We hope this work will inform AWC restoration efforts and bring visibility to this declining wetland species. [ABSTRACT FROM AUTHOR]

Published

2023

5. Strategies to mitigate shifts in red oak (Quercus sect. Lobatae) distribution under a changing climate.

Author

Rauschendorfer, James, Rooney, Rebecca, and Külheim, Carsten

Subjects

*DROUGHTS, *REDSHIFT, *LIFE history theory, *OAK, *CLIMATE change, *SPECIES hybridization, *SECTS

Abstract

Red oaks (Quercus sect. Lobatae) are a taxonomic group of hardwood trees, which occur in swamp forests, subtropical chaparral and savannahs from Columbia to Canada. They cover a wide range of ecological niches, and many species are thought to be able to cope with current trends in climate change. Genus Quercus encompasses ca. 500 species, of which ca. 80 make up sect. Lobatae. Species diversity is greatest within the southeastern USA and within the northern and eastern regions of Mexico. This review discusses the weak reproductive barriers between species of red oaks and the effects this has on speciation and niche range. Distribution and diversity have been shaped by drought adaptations common to the species of sect. Lobatae , which enable them to fill various xeric niches across the continent. Drought adaptive traits of this taxonomic group include deciduousness, deep tap roots, ring-porous xylem, regenerative stump sprouting, greater leaf thickness and smaller stomata. The complex interplay between these anatomical and morphological traits has given red oaks features of drought tolerance and avoidance. Here, we discuss physiological and genetic components of these adaptations to address how many species of sect. Lobatae reside within xeric sites and/or sustain normal metabolic function during drought. Although extensive drought adaptation appears to give sect. Lobatae a resilience to climate change, aging tree stands, oak life history traits and the current genetic structures place many red oak species at risk. Furthermore, oak decline, a complex interaction between abiotic and biotic agents, has severe effects on red oaks and is likely to accelerate species decline and fragmentation. We suggest that assisted migration can be used to avoid species fragmentation and increase climate change resilience of sect. Lobatae. [ABSTRACT FROM AUTHOR]

Published

2022

6. New Seed-Collection Zones for the Eastern United States: The Eastern Seed Zone Forum.

Author

Pike, Carolyn, Potter, Kevin M, Berrang, Paul, Crane, Barbara, Baggs, Joanne, Leites, Laura, and Luther, Tom

Subjects

REFORESTATION, HARDINESS of plants, ZONING, SEEDS, PHANEROGAMS, ECOLOGICAL regions, FOREST biodiversity & climate

Abstract

Abstract Reforestation and restoration efforts have traditionally relied on "local" seed sources as planting stock. The term "local" has different meanings in different locales, since no single set of seed-collection zones has yet been widely adopted across the eastern United States. Given concerns about mitigating the effects of climate change, forest managers are increasingly seeking to move seed sources in a process called assisted migration, which would be facilitated if a common set of seed-collection zones were available. We developed a map of 245 seed-collection zones for 37 states by combining two ecologically important layers: plant hardiness zones and ecoregions. These new seed-collection zones should be used by seed collectors and nurseries to describe the origin of seed for plants and trees in the eastern United States. Common garden studies remain the gold standard for determining how far to move seed from any particular seed-collection zone. For species that have not been field-tested, seed movement that is limited either within a seed-collection zone or between adjacent seed-collection zones is a reasonable general guideline. [ABSTRACT FROM AUTHOR]

Published

2020

7. Priority Actions to Improve Provenance Decision-Making.

Author

Breed, Martin F, Harrison, Peter A, Bischoff, Armin, Durruty, Paula, Gellie, Nick J C, Gonzales, Emily K, Havens, Kayri, Karmann, Marion, Kilkenny, Francis F, and Krauss, Siegfried L

Subjects

*ASSISTED migration (Plant colonization), *RESTORATION ecology, *OUTCROSSING (Biology), *PLANT populations, *EFFECT of climate on biodiversity

Abstract

Selecting the geographic origin—the provenance—of seed is a key decision in restoration. The last decade has seen a vigorous debate on whether to use local or nonlocal seed. The use of local seed has been the preferred approach because it is expected to maintain local adaptation and avoid deleterious population effects (e.g., maladaptation and outbreeding depression). However, the impacts of habitat fragmentation and climate change on plant populations have driven the debate on whether the local-is-best standard needs changing. This debate has largely been theoretical in nature, which hampers provenance decision-making. Here, we detail cross-sector priority actions to improve provenance decision-making, including embedding provenance trials into restoration projects; developing dynamic, evidence-based provenance policies; and establishing stronger research–practitioner collaborations to facilitate the adoption of research outcomes. We discuss how to tackle these priority actions in order to help satisfy the restoration sector's requirement for appropriately provenanced seed. [ABSTRACT FROM AUTHOR]

Published

2018

8. Information Underload: Ecological Complexity, Incomplete Knowledge, and Data Deficits Create Challenges for the Assisted Migration of Forest Trees.

Author

Park, Andrew and Talbot, Carolyn

Subjects

*ASSISTED migration (Plant colonization), *FOREST management, *PLANT conservation, *CLIMATE change mitigation, *CONSERVATION of natural resources

Abstract

Forest managers are considering assisted migration as a strategy to develop climate-resilient forests. Assisted migration (AM) is the translocation of species or genotypes from their current ranges to areas predicted to have a supportive future climate. Although correlations of species ranges with climate are traditionally used to explore AM potential, successful AM strategies will have to consider many other variables. In this article, we review recent research that informs the complexity of AM decisions. Local microenvironment, herbivory, and intraspecific interactions frequently outweigh climate in determining species establishment and survival. Species adopt several strategies to cope with drought, heat, and cold, but translocated genetic material can display cryptic maladaptation when challenged by extreme, out-of-range weather events. Phenology, photoperiod, and climate are related in complex, often provenance-specific ways. We discuss the implications of our findings for forestry AM and make recommendations for incorporating these insights into future research and AM practice. [ABSTRACT FROM AUTHOR]

Published

2018

9. Thermal acclimation of photosynthesis and respiration of southern and northern white spruce seed sources tested along a regional climatic gradient indicates limited potential to cope with temperature warming.

Author

Benomar, Lahcen, Lamhamedi, Mohammed S, Pepin, Steeve, Rainville, André, Lambert, Marie-Claude, Margolis, Hank A, Bousquet, Jean, and Beaulieu, Jean

Subjects

*ACCLIMATIZATION (Plants), *PHOTOSYNTHESIS, *CLIMATE change, *RESPIRATION in plants, *TEMPERATURE effect, *FOREST ecology

Abstract

• Background and Aims Knowledge of thermal acclimation of physiological processes of boreal tree species is necessary to determine their ability to adapt to predicted global warming and reduce the uncertainty around the anticipated feedbacks of forest ecosystems and global carbon cycle to climate change. The objective of this work was to examine the extent of thermal acclimation of net photosynthesis (An) and dark respiration (Rd) of two distant white spruce (Picea glauca) seed sources (from south and north of the commerial forest zone in Québec) in response to latitudinal and seasonal variations in growing conditions. • Methods The temperature responses of An, its biochemical and biophysical limitations, and Rd were measured in 1-year-old needles of seedlings from the seed sources growing in eight forest plantations along a regional thermal gradient of 5.5 °C in Québec, Canada. • Key Results The average optimum temperature (Topt) for An was 19 ± 1.2 °C and was similar among seed sources and plantation sites along the thermal gradient. Net photosynthesis at Topt (Aopt) varied significantly among plantation sites and was quadratically related to the mean July temperature (MJT) of plantation sites. Topt for mesophyll conductance, maximum electron transport rate and maximum rate of carboxylation were 28, 22 and 30 °C, respectively. Basal respiration rate (Rd at 10 °C) was linearly and negatively associated with MJT. Q10 of Rd (the rate of change in Rd with a 10 °C increase in temperature) did not show any significant relationship with MJT and averaged 1.5 ± 0.1. The two seed sources were similar in their thermal responses to latitudinal and seasonal variations in growing conditions. • Conclusions The results showed moderate thermal acclimation of respiration and no evidence for thermal acclimation of photosynthesis or local genetic adaptation for traits related to thermal acclimation. Therefore, growth of local white spruces may decline in future climates. [ABSTRACT FROM AUTHOR]

Published

2018

10. Preparing for Climate Change: Forestry and Assisted Migration.

Author

William, Mary I. and Dumroese, R. Kasten

Subjects

CLIMATE change, FORESTS & forestry, ASSISTED migration (Plant colonization), FOREST management, FOREST conservation

Abstract

Although plants have moved across the landscape in response to changing climate for millennia, projections of contemporary climate change suggest that forest tree species and populations will need to migrate faster than their natural ability. Therefore, climate change adaptation strategies, such as assisted migration, have gained attention since 2007. Effective implementation of assisted migration can only occur if target transfer guidelines are developed because our current seed transfer guidelines, established to guide the movement of plant materials, lack inherent spatial and temporal dynamics associated with climate change. This limitation restrains reforestation practitioners from making decisions about assisted migration. Lack of operating procedures, uncertainties about future climate conditions, risks associated with moving plants outside their current ranges, and existing policies have hampered formal actions in forest management and conservation. We review the current thinking on assisted migration of forest tree species and provide information that could facilitate implementation. [ABSTRACT FROM AUTHOR]

Published

2013

11. Growth phenology of coast Douglas-fir seed sources planted in diverse environments.

Author

Gould, Peter J., Harrington, Constance A., and Clair, J. Bradley St.

Subjects

*PLANT growth, *SEED research, *CLIMATE change, *BASAL area (Forestry), *PLANT diversity, *BIODIVERSITY

Abstract

The timing of periodic life cycle events in plants (phenology) is an important factor determining how species and populations will react to climate change. We evaluated annual patterns of basal-area and height growth of coast Douglas-fir (Pseudotusga menziesii var. menziesii (Mirb.) Franco) seedlings from four seed sources that were planted in four diverse environments as part of the Douglas-fir Seed-Source Movement Trial. Stem diameters and heights were measured periodically during the 2010 growing season on 16 open-pollinated families at each study installation. Stem diameters were measured on a subset of trees with electronic dendrometers during the 2010 and 2011 growing seasons. Trees from the four seed sources differed in phenology metrics that described the timing of basal-area and height-growth initiation, growth cessation and growth rates. Differences in the height-growth metrics were generally larger than differences in the basal-area growth metrics and differences among installations were larger than differences among seed sources, highlighting the importance of environmental signals on growth phenology. Variations in the height- and basal-area growth metrics were correlated with different aspects of the seed-source environments: precipitation in the case of height growth and minimum temperature in the case of basal-area growth. The detailed dendrometer measurements revealed differences in growth patterns between seed sources during distinct periods in the growing season. Our results indicate that multiple aspects of growth phenology should be considered along with other traits when evaluating adaptation of populations to future climates. [ABSTRACT FROM AUTHOR]

Published

2012

12. Placing Forestry in the Assisted Migration Debate.

Author

PEDLAR, JOHN H., McKENNEY, DANIEL W., AUBIN, ISABELLE, BEARDMORE, TANNIS, BEAULIEU, JEAN, IVERSON, LOUIS, O'NEILL, GREGORY A., WINDER, RICHARD S., and STE-MARIE, CATHERINE

Subjects

*ASSISTED migration (Plant colonization), *TREES & the environment, *CLIMATE change research, *FORESTRY research, *FORESTRY projects, *CONSERVATION biology

Abstract

Assisted migration (AM) is often presented as a strategy to save species that are imminently threatened by rapid climate change. This conception of AM, which has generated considerable controversy, typically proposes the movement of narrowly distributed, threatened species to suitable sites beyond their current range limits. However, existing North American forestry operations present an opportunity to practice AM on a larger scale, across millions of hectares, with a focus on moving populations of widely distributed, nonthreatened tree species within their current range limits. Despite these differences (and many others detailed herein), these two conceptions of AM have not been clearly distinguished in the literature, which has added confusion to recent dialogue and debate. Here, we aim to facilitate clearer communication on this topic by detailing this distinction and encouraging a more nuanced view of AM. [ABSTRACT FROM AUTHOR]

Published

2012