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1. Environmental variability in aquatic ecosystems: Avenues for future multifactorial experiments

   https://doi.org/10.1002/lol2.10286  

   Gerhard, Miriam; Koussoroplis, Apostolos‐Manuel; Raatz, Michael; Pansch, Christian; Fey, Samuel B.; Vajedsamiei, Jahangir; Calderó‐Pascual, Maria; Cunillera‐Montcusí, David; Juvigny‐Khenafou, Noël P. D.; Polazzo, Francesco; et al (October 2022, Limnology and Oceanography Letters)

   Abstract The relevance of considering environmental variability for understanding and predicting biological responses to environmental changes has resulted in a recent surge in variability‐focused ecological research. However, integration of findings that emerge across studies and identification of remaining knowledge gaps in aquatic ecosystems remain critical. Here, we address these aspects by: (1) summarizing relevant terms of variability research including the components (characteristics) of variability and key interactions when considering multiple environmental factors; (2) identifying conceptual frameworks for understanding the consequences of environmental variability in single and multifactorial scenarios; (3) highlighting challenges for bridging theoretical and experimental studies involving transitioning from simple to more complex scenarios; (4) proposing improved approaches to overcome current mismatches between theoretical predictions and experimental observations; and (5) providing a guide for designing integrated experiments across multiple scales, degrees of control, and complexity in light of their specific strengths and limitations. 

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2. Building Bridges from Genome to Phenome: Molecules, Methods and Models—An Introduction to the Symposium

   https://doi.org/10.1093/icb/icaa073  

   Burnett, Karen G; Durica, David S; Mykles, Donald L; Stillman, Jonathon H (June 2020, Integrative and Comparative Biology)

   Synopsis How stable genotypes interact with their environment to generate phenotypic variation that can be acted upon by evolutionary and ecological forces is a central focus of research across many scientific disciplines represented within SICB. The Building Bridges Symposium brought together scientists using a variety of organisms, methods, and levels of biological organization to study the emergent properties of genomes. Workshops associated with the Symposium aimed to identify the leading edges and major barriers to research in this field, and to recommend future directions that might accelerate the pace of progress. The papers included in this Symposium volume draw attention to the strength of using comparative approaches in non-model organisms to study the many aspects of genotype–environment interaction that drive phenotype variation. These contributions and the concluding white paper also illustrate the need for novel conceptual frameworks that can bridge and accommodate data and conclusions from the broad range of study systems employed by comparative and integrative biologists to address genome-to-phenome questions. 

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3. A brief review of vertebrate sex evolution with a pledge for integrative research: towards ‘ sexomics ’

   https://doi.org/10.1098/rstb.2020.0426  

   Stöck, Matthias; Kratochvíl, Lukáš; Kuhl, Heiner; Rovatsos, Michail; Evans, Ben J.; Suh, Alexander; Valenzuela, Nicole; Veyrunes, Frédéric; Zhou, Qi; Gamble, Tony; et al (August 2021, Philosophical Transactions of the Royal Society B: Biological Sciences)

   Triggers and biological processes controlling male or female gonadal differentiation vary in vertebrates, with sex determination (SD) governed by environmental factors or simple to complex genetic mechanisms that evolved repeatedly and independently in various groups. Here, we review sex evolution across major clades of vertebrates with information on SD, sexual development and reproductive modes. We offer an up-to-date review of divergence times, species diversity, genomic resources, genome size, occurrence and nature of polyploids, SD systems, sex chromosomes, SD genes, dosage compensation and sex-biased gene expression. Advances in sequencing technologies now enable us to study the evolution of SD at broader evolutionary scales, and we now hope to pursue a sexomics integrative research initiative across vertebrates. The vertebrate sexome comprises interdisciplinary and integrated information on sexual differentiation, development and reproduction at all biological levels, from genomes, transcriptomes and proteomes, to the organs involved in sexual and sex-specific processes, including gonads, secondary sex organs and those with transcriptional sex-bias. The sexome also includes ontogenetic and behavioural aspects of sexual differentiation, including malfunction and impairment of SD, sexual differentiation and fertility. Starting from data generated by high-throughput approaches, we encourage others to contribute expertise to building understanding of the sexomes of many key vertebrate species. This article is part of the theme issue ‘Challenging the paradigm in sex chromosome evolution: empirical and theoretical insights with a focus on vertebrates (Part I)’. 

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4. Perspectives from Ten Years of Protist Studies by High‐Throughput Metabarcoding

   https://doi.org/10.1111/jeu.12813  

   Santoferrara, Luciana; Burki, Fabien; Filker, Sabine; Logares, Ramiro; Dunthorn, Micah; McManus, George B. (July 2020, Journal of Eukaryotic Microbiology)

   During the last decade, high-throughput metabarcoding became routine for analyzing protistan diversity and distributions in nature. Amid a multitude of exciting findings, scientists have also identified and addressed technical and biological limitations, although problems still exist for inference of meaningful taxonomic and ecological knowledge based on short DNA sequences. Given the extensive use of this approach, it is critical to settle our understanding on its strengths and weaknesses and to synthesize up-to-date methodological and conceptual trends. This article summarizes key scientific and technical findings, and identifies current and future directions in protist research that uses metabarcoding. 

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5. Experimental reporting of fish transcriptomic responses in environmental toxicology and ecotoxicology

   https://doi.org/10.1093/etojnl/vgae077  

   Langan, Laura_M; Baettig, Camille_G; Cole, Alexander_R; Lovin, Lea; Scarlett, Kendall; Wronski, Adam_R; O’Brien, Megan_E; Shmaitelly, Yesmeena; Brooks, Bryan_W (January 2025, Environmental Toxicology and Chemistry)

   Abstract Due to its increasing affordability and efforts to understand transcriptional responses of organisms to biotic and abiotic stimuli, transcriptomics has become an important tool with significant impact on toxicological investigations and hazard and risk assessments, especially during development and application of new approach methodologies (NAMs). Data generated using transcriptomic methodologies have directly informed adverse outcome pathway frameworks, chemical and biological read across, and aided in the identification of points of departure. Using data reporting frameworks for transcriptomics data offers improved transparency and reproducibility of research and an opportunity to identify barriers to adoption of these NAMs, especially in environmental toxicology and ecotoxicology with aquatic models. Improved reporting also allows for reexamination of existing data, limiting needs for experiment replication and further reducing animal experimentation. Here, we use a standardized form of data reporting for omics-based studies, the Organisation for Economic Co-operation and Development omics reporting framework, which specifically reports on a list of parameters that should be included in transcriptomics studies used in a regulatory context. We focused specifically on fish studies using RNA- Sequencing (Seq)/microarray technologies within a toxicology context. Inconsistencies in reporting and methodologies among the experimental designs (toxicology vs. molecular characterization) were observed in addition to foundational differences in reporting of sample concentration or preparation or quality assessments, which can affect reproducibility and read across, confidence in results, and contribute substantially to understanding molecular mechanisms of toxicants and toxins. Our findings present an opportunity for improved research reporting. We also provide several recommendations as logical steps to reduce barriers to adoption of transcriptomics within environmental toxicology and ecotoxicology. 

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