How maternal age and environmental cues influence embryonic developmental pathways and diapause dynamics in a North American annual killifish

Domínguez-Castanedo, Omar; Valdez-Carbajal, Sharon; Martínez‐Blancas, Alejandra; M, Tessy Muñoz-Campos

doi:10.1002/dvdy.515

Cited by 2 publications

(1 citation statement)

References 43 publications

(136 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…However, the magnitude and direction of the effects of temperature changes on the development of annual fishes are not easy to predict. While low temperatures induced entry into diapause II, high temperatures induced escape from it in annual fish embryos (Domínguez‐Castanedo et al, 2022; Furness et al, 2015; Podrabsky et al, 2010). A previous study showed that the embryonic development of subtropical annual fish species was faster under higher temperatures (Arenzon et al, 2002).…”

Section: Introductionmentioning

confidence: 99%

Effects of temperature and heat waves on embryonic development of annual fishes from Neotropical wetlands: Implications for climate change scenarios

Godoy

Weber

Lanés³

et al. 2023

Ecology of Freshwater Fish

View full text Add to dashboard Cite

Climate change projections predict warmer temperatures and increased frequency of heat waves in many regions across the globe. These scenarios are expected to strongly impact temperature‐dependent life‐history traits of aquatic species, such as the embryonic stage of annual fishes inhabiting temporary freshwater wetlands. Here, we assessed the effects of different incubation temperatures (18, 24, 27 and 30°C) and exposure to heat waves (18–30°C for 6 h) on aspects of the embryonic development: mortality and trajectory (direct development or diapause entry) of two Neotropical species of annual fishes from high‐ (Austrolebias nubium) and low‐altitude (A. cyaneus) areas. Temperatures of 30°C resulted in 100% embryo mortality in both species, and development trajectory differed between species across temperatures. Embryo mortality in the high‐altitude species was higher at 27°C, while a higher number of embryos of the low‐altitude species entered diapause II at 18°C. Embryo mortality and development trajectory after exposure to heat waves were similar between species. In terms of implications for climate change scenarios, temperatures above 27°C seem critical for the embryo survival of both species studied, although they seem capable to endure short‐term events of heat waves. In summary, our results indicate that the persistence of populations of high‐altitude annual fish species may be subject to higher threat under warming scenarios, since embryos from this species were more sensitive to increasing temperatures than the low‐altitude species.

show abstract

Section: Introductionmentioning

confidence: 99%

Effects of temperature and heat waves on embryonic development of annual fishes from Neotropical wetlands: Implications for climate change scenarios

Godoy

Weber

Lanés³

et al. 2023

Ecology of Freshwater Fish

View full text Add to dashboard Cite

show abstract

An independent origin of an annual life cycle in a North American killifish species

Domínguez-Castanedo,

Thompson,

Meredith

et al. 2024

Biological Journal of the Linnean Society

View full text Add to dashboard Cite

An annual life cycle is characterized by short-lived adults that exploit seasonally productive but temporary habitats, paired with a hardy embryo stage that survives unfavourable environmental conditions, such as winter or the dry season. This life cycle is rare amongst vertebrates but has evolved independently several times in African and South American killifishes adapted to life in seasonally ephemeral aquatic pools. A single species of North American annual killifish, with a limited geographical distribution in Mexico, also exhibits this seasonal life cycle. This enigmatic species, Millerichthys robustus, is geographically separated from the nearest South American annual killifish species by >2000 km. Millerichthys robustus exhibits morphological features that have led to several competing phylogenetic hypotheses. To date, its phylogenetic relationships are unclear because no molecular data have been available. Here, we sequence the mitochondrial genome of Millerichthys robustus and generate a molecular phylogeny of killifishes that includes this species. Our results indicate that, rather than being most closely related to South American annual killifishes, this species is sister to two non-annual killifish species from Cuba (Rivulus cylindraceus and Rivulus berovidesi). Ancestral state reconstruction strongly supports an independent origin of an annual life cycle and embryonic diapause in Millerichthys robustus.

show abstract

How maternal age and environmental cues influence embryonic developmental pathways and diapause dynamics in a North American annual killifish

Cited by 2 publications

References 43 publications

Effects of temperature and heat waves on embryonic development of annual fishes from Neotropical wetlands: Implications for climate change scenarios

Effects of temperature and heat waves on embryonic development of annual fishes from Neotropical wetlands: Implications for climate change scenarios

An independent origin of an annual life cycle in a North American killifish species

Contact Info

Product

Resources

About