Recent degradation and loss of tropical estuaries due to human impact have made necessary the protection of essential habitats for estuarine fishes. A better understanding of estuarine use patterns contributes greatly to identifying essential habitat conditions. Stable isotope analyses of muscle tissue (d¹³C_muscle and d¹⁵N_muscle) and otoliths (d¹³C_otolith and d¹⁸O_otolith) were conducted for mangrove fishes (including coral reef fish as reference of seawater living). Muscle stable isotopes exhibited a spatial change from inshore to offshore habitats associated with growth, possibly related to the reef-ward movement of the fish (Le et al. 2019). Moreover, the salinity histories of 3 species of estuarine mangrove fishes, often dominant in tropical East Asian estuaries, viz. the apogonid Fibramia amboinensis, the pomacentrid Neopomacentrus taeniurus and the terapontid Terapon jarbua, were examined by analyzing their otolith. The d¹⁸O_otolith ranges of −5.4 to −2.3‰ for F. amboinensis and −3.7 to −2.3‰ for N. taeniurus corresponded to 6 to 30 psu and 19 to 30 psu, respectively, when compared to the 2 extreme salinity values of the reference fishes. T. jarbua, in contrast, exhibited a d¹⁸O_otolith range of −3.0 to −1.8‰, corresponding to 25 to 34 psu (Shirai et al. 2018). We proposed potential of analytical chemistry technique to reconstruct ecological history of mangrove fishes. We will discuss how these technique can be used for coastal and mangrove conservation strategies.
Reference:
Shirai et al. (2018) Reconstruction of the salinity history associated with movements of mangrove fishes using otolith oxygen isotopic analysis. Marine Ecology Progress Series 593, 127-139.
Le et al. (2019) Isotopic evidences of connectivity between the inshore vegetated lagoon as nursery habitat and coastal artificial reefs as adult habitats for the reef fish, Lethrinus lentjan, from East coast of Peninsular, Malaysia. Marine and Freshwater Research 70, 1675-1688.