Titlebook: Coral Reef Conservation and Restoration in the Omics Age; Madeleine J. H. van Oppen,Manuel Aranda Lastra Book 2022 The Editor(s) (if appli

ABHOR

Epigenetics and Acquired Tolerance to Environmental Stress,corals and the potential role of epigenetic mechanisms in this process. Based on the current evidence from corals and other organisms, I provide a theoretical model by which epigenetic mechanisms could confer transcriptional memory and, thus, promote acquired tolerance in these organisms.

碳水化合物

極端的正確性

A Need for Reverse Genetics to Study Coral Biology and Inform Conservation Efforts,experiments have generated several promising hypotheses. Unfortunately, many of these hypotheses have not been tested directly due, in part, to the lack of reverse-genetic tools to characterize candidate genes and pathways. Because of the absence of functional testing, the genetic nature of coral he

細(xì)微的差異

Informing Coral Reef Conservation Through Metabolomic Approaches,d discusses their potential for reef conservation. We suggest that these metabolomic-based approaches can be implemented in coral reef conservation by building on the vast lessons learnt from reef genomics and outline a roadmap of the key steps required to move this field forward: (1) maximise capab

BILK

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Cryopreservation to Conserve Genetic Diversity of Reef-Building Corals,re common, threatening coral populations and diminishing their ability to recover naturally through reproduction. The development of new cryopreservation technologies for non-reproductive tissues is therefore essential. Advanced technologies to cryopreserve small coral fragments are in progress and

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輕快來事

Incorporating Genetic Measures of Connectivity and Adaptation in Marine Spatial Planning for Coralsnhance system-wide resilience and persistence via the exchange of individuals, supporting greater population sizes and functional genetic diversity. Conservation area networks are typically designed with a systematic spatial planning process. New perspectives and emerging methods enable the long-sta

Inelasticity

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Identifying, Monitoring, and Managing Adaptive Genetic Variation in Reef-Building Corals under Rapilready adapted to recent warming (+0.6?°C since 1980) and if their adaptive capacity is sufficient to keep pace with additional rapid warming predicted over the coming decades (+1–3?°C by 2081–2100 relative to 1995–2014). Much of this uncertainty is due to limited knowledge of adaptive genetic varia