Showing papers by "Alan K. Whitfield published in 2023"
TL;DR: In this article , a review of research on the ingress of larvae and early juveniles of marine fishes into estuaries subjected to different tidal regimes and provide perspectives on the abilities and responses of these early-life stages to the physico-chemical, hydrodynamic and biological drivers that facilitate such ingress.
Abstract: We review published research on the ingress of larvae and early juveniles of marine fishes into estuaries subjected to different tidal regimes and provide perspectives on the abilities and responses of these early-life stages to the physico-chemical, hydrodynamic and biological drivers that facilitate such ingress. We focus on documenting ingress and the mechanisms employed by early-stage fishes from coastal waters to enter different types of microtidal and macrotidal estuaries but also include information on ingress into mesotidal systems. Spawning localities for estuary-associated marine fishes are assessed with respect to ontogeny of larvae and their ability to ingress estuaries during the preflexion and postflexion stages. The processes and physico-chemical cues employed by larvae and early juveniles to locate estuaries are reviewed, with olfactory cues being recognised as especially important. Particular emphasis is directed to vertical migratory behaviours and selective tidal stream transport (STST) employed by many larvae ingressing macrotidal estuaries, contrasting with mainly passive flood-tide entry and active swimming modes typically used by larvae and early juveniles that enter microtidal estuaries and estuarine lakes and lagoon systems.
TL;DR: In this paper , a review examines the published literature on the distribution and species richness of the family mugilidae around six continents as well as their phylogenetic relationships in a time calibrated tree.
Abstract: This review examines the published literature on the distribution and species richness of the family Mugilidae around six continents as well as their phylogenetic relationships in a time calibrated tree. Three mugilid species richness regions are identified globally, namely the Coral Triangle, southern Asia and southern Africa, all of which have between 16 and 18 morphologically recognized species. Two of the species hotspots are tropical and only the southern African one incorporates temperate waters. The centre of mugilid evolution and then global dispersion appears to be located in tropical waters of the Indo-Pacific. Speciation within the family was promoted mainly by plate tectonics, eustatic sea level changes, a tropical climate, and high habitat diversity within this region. The number of these tropical species that radiated out to the coastal waters of Africa and America were clearly less than the number that remained in the central Indo-Pacific region. However, access by tropical mugilid species was greater to Africa than the Americas because of the direct tropical and subtropical coastal connectivity to the former continent. This enabled more tropical mugilids to reach Africa than America, with the latter probably relying on Paleocene 'island hopping' or rafting to move eastwards across the Pacific Ocean. In addition, tropical mugilids were able to access warm western and central African coastal waters from the Pacific prior to the closure the Tethys Sea gap in the eastern Mediterranean and prior to the development of the cool Benguela Current upwelling off the southwest African coast, and from America through at least two trans-Atlantic rafting events.