Mugilogobius































Fig. 6. The fresh specimen photographs of eight species of Mugilogobius from Taiwan and Southeast Asia. (A) M. flavomaculatus n. sp., ASIZP0078393, holotype, male, 33.0 mm SL. (B) M. abei, NTOUP 2010-11-586, male, 22.4 mm SL; (C) M. cavifrons, NTOUP 2012-02-114, male, 42.9 mm SL. (D) M. chulae, NTOUP 2010-08-429, male, 29.5 mm SL. (E) M. mertoni, NTOUP 2010-08-433, male, 24.5 mm SL. (F) M. myxodermus, NTOUP 2010-08-435, male, 32.9 mm SL. (G) M. tigrinus, NTOUP 2011-05-002, male, 17.5 mm SL. (H) M. sp., NTOUP 2012-11-171, male, 23.2 mm SL.




Published in:
Mugilogobius mertoni complex (Teleostei: Gobiidae), with description of a new cryptic species of M. flavomaculatus from Taiwan
Shih-Pin Huang, I-Shiung Chen, Mana M. N. Yung, and Kwang-Tsao Shao (2016)
http://zoolstud.sinica.edu.tw/Journals/55/55-39.pdf

ABSTRACT Mugilogobius mertoni (Weber, 1911) is considered as a widely distributed species around the Indo- West Pacific region, and several nominal species are considered as junior synonyms of M. mertoni. However, in our recent study, several different morphological types of M. mertoni were observed, they were collected from Taiwan, Palau and Phuket Island. This study aimed to investigate the taxonomic status of those M. mertoni-like individuals, we also attempted to assess their phylogenetic relationship base on combined mitochondrial DNA ND5, Cyt b and D-loop sequences. The present morphological and molecular evidences suggested that the current M. mertoni could be regarded as a species complex, and several cryptic species might be included in M. mertoni complex. One of these which collected from Taiwan is described as a new species, Mugilogobius flavomaculatus n. sp. based on both morphological and molecular evidence in this study. The phylogenetic tree also revealed that M. flavomaculatus n. sp. is the closest to M. mertoni. M. flavomaculatus n. sp. and its sister species M. mertoni are found to have different niches in the same estuary. Moreover, stable morphological characters and nuclear gene RAG2 also clearly show that no hybridization is detected in between M. flavomaculatus n. sp. and M. mertoni. Except the present new species, taxonomic status of all junior synonyms refers to M. mertoni are also discussed.