Species boundaries remain unresolved in many scleractinian corals. In this study, we examine evolutionary boundaries of species in the Acropora humilis species group. Five morphologically discrete units are recognized using principal components and hierarchical cluster analyses of quantitative and qualitative characters, respectively. Maximum parsimony and likelihood analyses of partial 28S rDNA sequences suggest that these morphological units diverged to form two evolutionarily distinct lineages, with A. humilis and A. gemmifera in one lineage and A. digitifera and two morphological types of A. monticulosa in the other. Low levels of sequence divergence but distinct morphologies of A. humilis and A. gemmifera within the former lineage sugg...
For many corals, the existence of morphologically distinct yet sympatric populations/species implies...
Acropora is the most speciose genus in coral reef with 113 species currently described. Diversified ...
Abstract Background Our ability to investigate processes shaping the evolutionary diversification of...
Species boundaries remain unresolved in many scleractinian corals. In this study, we examine evoluti...
This study examines molecular relationships across a wide range of species in the mass spawning scle...
Accurate identification of species is critical for studies of biological systems, including biodiver...
Accurate definition of species and species boundaries is critical for correctly interpreting evoluti...
Although Acropora is the most species-rich genus of the scleractinian (stony) corals, only three spe...
Accurate definition of species is critical to understanding ecological and evolutionary processes an...
Distinguishing coral species is not only crucial for physiological, ecological, and evolutionary stu...
Abstract Distinguishing coral species is not only crucial for physiological, ecological, and evoluti...
Morphological characters are traditionally used to define species of corals. However, defining speci...
A combined morphological and genetic study of the coral genus Stylophora investigated species bounda...
Molecular relationships were investigated among the three Caribbean Acropora species Acropora palmat...
[[sponsorship]]細胞與個體生物學研究所[[note]]已出版;[SCI];沒有審查制度;具代表性[[note]]http://gateway.isiknowledge.com/gatew...
For many corals, the existence of morphologically distinct yet sympatric populations/species implies...
Acropora is the most speciose genus in coral reef with 113 species currently described. Diversified ...
Abstract Background Our ability to investigate processes shaping the evolutionary diversification of...
Species boundaries remain unresolved in many scleractinian corals. In this study, we examine evoluti...
This study examines molecular relationships across a wide range of species in the mass spawning scle...
Accurate identification of species is critical for studies of biological systems, including biodiver...
Accurate definition of species and species boundaries is critical for correctly interpreting evoluti...
Although Acropora is the most species-rich genus of the scleractinian (stony) corals, only three spe...
Accurate definition of species is critical to understanding ecological and evolutionary processes an...
Distinguishing coral species is not only crucial for physiological, ecological, and evolutionary stu...
Abstract Distinguishing coral species is not only crucial for physiological, ecological, and evoluti...
Morphological characters are traditionally used to define species of corals. However, defining speci...
A combined morphological and genetic study of the coral genus Stylophora investigated species bounda...
Molecular relationships were investigated among the three Caribbean Acropora species Acropora palmat...
[[sponsorship]]細胞與個體生物學研究所[[note]]已出版;[SCI];沒有審查制度;具代表性[[note]]http://gateway.isiknowledge.com/gatew...
For many corals, the existence of morphologically distinct yet sympatric populations/species implies...
Acropora is the most speciose genus in coral reef with 113 species currently described. Diversified ...
Abstract Background Our ability to investigate processes shaping the evolutionary diversification of...
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