Faculty Opinions recommendation of Assisted colonization: Integrating conservation strategies in the face of climate change.

This study reviews the various conservation strategies applied to the four redwood species, namely coast redwood (Sequoia sempervirens), Sierra redwood or giant sequoia (Sequoiadendron giganteum), dawn redwood (Metasequoia glyptostroboides) and South American redwood or alerce (Fitzroya cupressoides), which are endemic in the USA, China and South America, respectively. All four redwood genera belong to the family Cupressaceae; they are monospecific, share a number of common phenotypic traits, including red wood, and are threatened in their native ranges due to human activity and a changing climate. Therefore, the management objective should be to conserve representative populations of the native species with as much genetic diversity as possible for their future survival. Those representative populations exhibiting relatively high levels of genetic diversity should be selected for germplasm preservation and monitored during the conservation phase by using molecular markers. In situ and ex situ strategies for the preservation of germplasm of the redwoods are discussed in this study. A holistic in situ gene conservation strategy calls for the regeneration of a large number of diverse redwood genotypes that exhibit adequate levels of neutral and adaptive genetic variability, by generative and vegetative methods for their preservation and maintenance in their endemic locations. At the same time, it would be desirable to conserve the redwoods in new ex situ reserves, away from their endemic locations with similar as well as different environmental conditions for testing their growth and survival capacities. In addition, other ex situ strategies involving biotechnological approaches for preservation of seeds, tissues, pollen and DNA in genebanks should also be fully exploited in the face of global climate change.

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A framework for selectively breeding corals for assisted evolution

10.1101/2021.02.23.432469 ◽

2021 ◽

Author(s):

Adriana Humanes ◽

John Bythell ◽

Elizabeth Beauchamp ◽

Mitch Carl ◽

Jamie Craggs ◽

...

Keyword(s):

Climate Change ◽

Large Scale ◽

Selective Breeding ◽

Coral Cover ◽

Ex Situ ◽

Conservation Strategies ◽

Acropora Digitifera ◽

Interdisciplinary Approaches ◽

The Face

AbstractCoral cover on tropical reefs has declined during the last three decades due to the combined effects of climate change, destructive fishing, pollution, and land use change. Drastic reductions in greenhouse gas emissions combined with effective coastal management and conservation strategies are essential to slow this decline. Innovative approaches, such as selective breeding for adaptive traits combined with large-scale sexual propagation, are being developed with the aim of pre-adapting reefs to increased ocean warming. However, there are still major gaps in our understanding of the technical and methodological constraints to producing corals for such restoration interventions. Here we propose a framework for selectively breeding corals and rearing them from eggs to 2.5-year old colonies using the coral Acropora digitifera as a model species. We present methods for choosing colonies for selective crossing, enhancing early survivorship in ex situ and in situ nurseries, and outplanting and monitoring colonies on natal reefs. We used a short-term (7-day) temperature stress assay to select parental colonies based on heat tolerance of excised branches. From six parental colonies, we produced 12 distinct crosses, and compared survivorship and growth of colonies transferred to in situ nurseries or outplanted to the reef at different ages. We demonstrate that selectively breeding and rearing coral colonies is technically feasible at small scales and could be upscaled as part of restorative assisted evolution initiatives. Nonetheless, there are still challenges to overcome before selective breeding can be implemented as a viable conservation tool, especially at the post-settlement and outplanting phases. Although interdisciplinary approaches will be needed to overcome many of the challenges identified in this study, selective breeding has the potential to be a viable tool within reef managers’ toolbox to support the persistence of selected reefs in the face of climate change.

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Not all seabird species can overcome marine threats when predator removal at their colonies is prioritised

10.1101/770263 ◽

2019 ◽

Author(s):

Stephanie B. Borrelle ◽

Holly P. Jones ◽

Yvan Richard ◽

Roberto Salguero-Gómez

Keyword(s):

Climate Change ◽

Adult Mortality ◽

Conservation Strategies ◽

Morphometric Traits ◽

Seabird Species ◽

Species Vulnerability ◽

Calonectris Diomedea ◽

The Face ◽

Negative Effect ◽

Predator Eradication

AbstractSeabirds are globally threatened. In the face of multiple threats, it is critical to understand how conservation strategies that mitigate one threat intersect with others to impact population viability. Marine threats, including pollution, climate change, and fisheries could derail gains to seabird populations resulting from arduous predator eradication efforts. However, this potentially negative effect is yet to be evaluated. We test whether mortality from marine threats can subvert the on-going recovery of 17 seabird species from 37 colonies on islands worldwide where predators were removed. We use demographic modelling to estimate potential adult mortality from fisheries, plastic ingestion, and climate change. For 82% of the species we examine, marine threats do not impede recovery following predator eradication. However, for six colonies of three species, Calonectris diomedea, C. borealis, and Ardenna carneipes, mortality from multiple marine threats may interrupt their recovery. Combining our demographic approach with comparative phylogenetic methods, we explore whether foraging niche, range, and morphometric traits inform the vulnerability to marine threats using an expanded dataset of 81 seabird species. Our analyses reveal surface filtering and pursuit diving species, and species with smaller at-sea distributions to be most vulnerable to declines due to multiple threats. However, these traits do not necessarily predict species’ vulnerability to marine threats in the absence of predators at nesting colonies, suggesting that shared traits may not be useful to infer vulnerability to multiple marine threats. Post-eradication monitoring to determine whether species require additional conservation management following predator eradication are essential in the face of intensifying pressures in the marine environment.

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An Experimental Framework for Selectively Breeding Corals for Assisted Evolution

Frontiers in Marine Science ◽

10.3389/fmars.2021.669995 ◽

2021 ◽

Vol 8 ◽

Author(s):

Adriana Humanes ◽

Elizabeth A. Beauchamp ◽

John C. Bythell ◽

Mitch K. Carl ◽

Jamie R. Craggs ◽

...

Keyword(s):

Climate Change ◽

Large Scale ◽

Selective Breeding ◽

Coral Cover ◽

Ex Situ ◽

Conservation Strategies ◽

Acropora Digitifera ◽

Interdisciplinary Approaches ◽

The Face

Coral cover on tropical reefs has declined during the last three decades due to the combined effects of climate change, destructive fishing, pollution, and land use change. Drastic reductions in greenhouse gas emissions combined with effective coastal management and conservation strategies are essential to slow this decline. Innovative approaches, such as selective breeding for adaptive traits combined with large-scale sexual propagation, are being developed with the aim of pre-adapting reefs to increased ocean warming. However, there are still major gaps in our understanding of the technical and methodological constraints to producing corals for such restoration interventions. Here we propose a framework for selectively breeding corals and rearing them from eggs to 2.5-year old colonies using the coral Acropora digitifera as a model species. We present methods for choosing colonies for selective crossing, enhancing early survivorship in ex situ and in situ nurseries, and outplanting and monitoring colonies on natal reefs. We used a short-term (7-day) temperature stress assay to select parental colonies based on heat tolerance of excised branches. From six parental colonies, we produced 12 distinct crosses, and compared survivorship and growth of colonies transferred to in situ nurseries or outplanted to the reef at different ages. We demonstrate that selectively breeding and rearing coral colonies is technically feasible at small scales and could be upscaled as part of restorative assisted evolution initiatives. Nonetheless, there are still challenges to overcome before selective breeding can be implemented as a viable conservation tool, especially at the post-settlement and outplanting phases. Although interdisciplinary approaches will be needed to overcome many of the challenges identified in this study, selective breeding has the potential to be a viable tool within a reef managers toolbox to support the persistence of selected reefs in the face of climate change.

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Climate change: making decisions in the face of deep uncertainty

Nature ◽

10.1038/d41586-020-01147-5 ◽

2020 ◽

Vol 580 (7804) ◽

pp. 456-456 ◽

Cited By ~ 4

Author(s):

Judy Lawrence ◽

Marjolijn Haasnoot ◽

Robert Lempert

Keyword(s):

Climate Change ◽

Deep Uncertainty ◽

The Face

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Understanding plant thermoregulation in the face of climate change

10.32907/ro-112-138141 ◽

2020 ◽

Keyword(s):

Climate Change ◽

The Face

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Predicting changes in distribution of a large coastal shark in the face of the strengthening East Australian Current

Marine Ecology Progress Series ◽

10.3354/meps13322 ◽

2020 ◽

Vol 642 ◽

pp. 163-177 ◽

Cited By ~ 1

Author(s):

Y Niella ◽

AF Smoothey ◽

V Peddemors ◽

R Harcourt

Keyword(s):

Austral Summer ◽

Conservation Strategies ◽

Limiting Factor ◽

Commercial Fisheries ◽

East Australian Current ◽

Spatial And Temporal Patterns ◽

Marine Animals ◽

Factors Affecting ◽

Southeastern Australia ◽

The Face

In the face of accelerating climate change, conservation strategies will need to consider how marine animals deal with forecast environmental change as well as ongoing threats. We used 10 yr (2009-2018) of data from commercial fisheries and a bather protection program along the coast of New South Wales (NSW), southeastern Australia, to investigate (1) spatial and temporal patterns of occurrence in bull sharks and (2) environmental factors affecting bull shark occurrence along the coast of NSW. Predicted future distribution for this species was modelled for the forecast strengthening East Australian Current. Bull sharks were mostly harvested in small to larger estuaries, with average depth and rainfall responsible for contrasting patterns for each of the fisheries. There was an increase in the occurrence of bull sharks over the last decade, particularly among coastal setline fisheries, associated with seasonal availability of thermal gradients >22°C and both westward and southward coastal currents stronger than 0.15 and 0.60 m s-1, respectively, during the austral summer. Our model predicts a 3 mo increase in the availability of favourable water temperatures along the entire coast of NSW for bull sharks by 2030. This coastline provides a uniquely favourable topography for range expansion in the face of a southerly shift of warmer waters, and habitat is unlikely to be a limiting factor for bull sharks in the future. Such a southerly shift in distribution has implications for the management of bull sharks both in commercial fisheries and for mitigation of shark-human interactions.

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Restoring whitebark pine ecosystems in the face of climate change

10.2737/rmrs-gtr-361 ◽

2017 ◽

Author(s):

Robert E. Keane ◽

Lisa M. Holsinger ◽

Mary F. Mahalovich ◽

Diana F. Tomback

Keyword(s):

Climate Change ◽

Whitebark Pine ◽

The Face

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