Deciphering coral disease dynamics: integrating host, microbiome, and the changing environment
Diseases of tropical reef organisms is an intensive area of study, but despite significant
advances in methodology and the global knowledge base, identifying the proximate causes …
advances in methodology and the global knowledge base, identifying the proximate causes …
Experimental Evolution in a Warming World: The Omics Era
MA Santos, A Carromeu-Santos… - Molecular Biology …, 2024 - academic.oup.com
A comprehensive understanding of the genetic mechanisms that shape species responses
to thermal variation is essential for more accurate predictions of the impacts of climate …
to thermal variation is essential for more accurate predictions of the impacts of climate …
Proteome metabolome and transcriptome data for three Symbiodiniaceae under ambient and heat stress conditions
The Symbiodiniaceae are a taxonomically and functionally diverse family of marine
dinoflagellates. Their symbiotic relationship with invertebrates such as scleractinian corals …
dinoflagellates. Their symbiotic relationship with invertebrates such as scleractinian corals …
Genome-wide transcriptome analysis reveals the diversity and function of long non-coding RNAs in dinoflagellates
Dinoflagellates are a diverse group of phytoplankton, ranging from harmful bloom-forming
microalgae to photosymbionts of coral reefs. Genome-scale data from dinoflagellates reveal …
microalgae to photosymbionts of coral reefs. Genome-scale data from dinoflagellates reveal …
Emerging issues for protected and conserved areas in Canada
Horizon scanning is increasingly used in conservation to systematically explore emerging
policy and management issues. We present the results of a horizon scan of issues likely to …
policy and management issues. We present the results of a horizon scan of issues likely to …
Environmental Concentrations of Herbicide Prometryn Render Stress-Tolerant Corals Susceptible to Ocean Warming
Y Zhou, Q Li, Q Zhang, M Yuan, X Zhu… - Environmental …, 2024 - ACS Publications
Global warming has caused the degradation of coral reefs around the world. While stress-
tolerant corals have demonstrated the ability to acclimatize to ocean warming, it remains …
tolerant corals have demonstrated the ability to acclimatize to ocean warming, it remains …
Shotgun proteomics identifies active metabolic pathways in bleached coral tissue and intraskeletal compartments
JB Axworthy, E Timmins-Schiffman, T Brown… - Frontiers in Marine …, 2022 - frontiersin.org
Coral bleaching events are increasing with such frequency and intensity that many of the
world's reef-building corals are in peril. Some corals appear to be more resilient after …
world's reef-building corals are in peril. Some corals appear to be more resilient after …
[HTML][HTML] (Bio) sensors applied to coral reefs' health monitoring: a critical overview
L Gastoldi, S Cinti - Green Analytical Chemistry, 2023 - Elsevier
Biosensor technology represents a novel tool with several areas of application, such as
biomedical and physicochemical ones. In this review, we considered this technology's …
biomedical and physicochemical ones. In this review, we considered this technology's …
Rapid evolution allows coexistence of highly divergent lineages within the same niche
Marine microbial communities are extremely complex and diverse. The number of locally
coexisting species often vastly exceeds the number of identifiable niches, and taxonomic …
coexisting species often vastly exceeds the number of identifiable niches, and taxonomic …
Different levels of energetic coupling between photosynthesis and respiration do not determine the occurrence of adaptive responses of Symbiodiniaceae to global …
M Pierangelini, M Thiry, P Cardol - New Phytologist, 2020 - Wiley Online Library
Disentangling the metabolic functioning of corals' endosymbionts (Symbiodiniaceae) is
relevant to understanding the response of coral reefs to warming oceans. In this work, we …
relevant to understanding the response of coral reefs to warming oceans. In this work, we …