Fundamental questions in meiofauna research highlight how small but ubiquitous animals can improve our understanding of Nature

Communications Biology, Journal Year: 2025, Volume and Issue: 8(1)

Published: March 17, 2025

This paper identifies the top-50 priority questions for meiofaunal research, highlighting their critical roles in biogeochemical cycles and biodiversity. It calls a balanced research agenda, international cooperation, advances technology to overcome current challenges unlock meiofauna's full potential.

Language: Английский

Toward a Global Science of Conservation Genomics: Coldspots in Genomic Resources Highlight a Need for Equitable Collaborations and Capacity Building

Molecular Ecology, Journal Year: 2025, Volume and Issue: unknown

Published: March 17, 2025

ABSTRACT Advances in genomic sequencing have magnified our understanding of ecological and evolutionary mechanisms relevant to biodiversity conservation. As a result, the field conservation genomics has grown rapidly. Genomic data can be effective guiding decisions by revealing fine‐scale patterns genetic diversity adaptation. Adaptive potential, sometimes referred as is particularly informative for due its inverse relationship with extinction risk. Yet, global coldspots resources impede progress toward goals. We undertook systematic literature review characterise distribution amphibians reptiles relative species richness, IUCN status, predicted change. classify scope available their potential applicability Finally, we examine collaborations studies. Our findings underscore current priorities expanding resources, especially those aimed at predicting adaptive future environmental results also highlight need improved research, resource sharing, capacity building Global South.

Language: Английский

The Genomics Revolution in Nonmodel Species: Predictions vs. Reality for Salmonids

Molecular Ecology, Journal Year: 2025, Volume and Issue: unknown

Published: April 18, 2025

ABSTRACT The increasing feasibility of whole‐genome sequencing has been highly anticipated, promising to transform our understanding the biology nonmodel species. Notably, dramatic cost reductions beginning around 2007 with advent high‐throughput inspired publications heralding ‘genomics revolution’, predictions about its future impacts. Although such served as useful guideposts, value is added when statements are evaluated benefit hindsight. Here, we review 10 key made early in genomics revolution, highlighting those realised while identifying challenges limiting others. We focus on concerning applied aspects and examples involving salmonid species which, due their socioeconomic ecological significance, have frontrunners applications Predicted outcomes included enhanced analytical power, deeper insights into genetic basis phenotype fitness variation, disease management breeding program advancements. many materialised, several expectations remain unmet technological, knowledge barriers. Additionally, largely unforeseen advancements, including identification applicability large‐effect loci, close‐kin mark–recapture, environmental DNA gene editing under‐anticipated value. Finally, emerging innovations artificial intelligence bioinformatics offer new directions. This retrospective evaluation impacts genomic revolution offers for

Language: Английский