Behavioral Characteristics of Largefin Longbarbel Catfish <i>Hemibagrus macropterus</i>: Effects of Sex and Body Size on Aggression and Shelter Selection

Behavioral Characteristics of Largefin Longbarbel Catfish <i>Hemibagrus macropterus</i>: Effects of Sex and Body Size on Aggression and Shelter Selection

This study investigated the aggressive behavior of <i>Hemibagrus macropterus</i> (Bleeker) by examining the effects of size combinations (large vs. large (LL), large vs. small (LS), small vs. small (SS)), sex combinations (male vs. male (MM), male vs. female (FM), female vs. female (FF))...

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Bibliographic Details
Main Authors: Xiaoli Li, Yongjiu Zhu, Siqi Chen, Tingbing Zhu, Xingbing Wu, Xuemei Li
Format: Article
Language:English
Published: MDPI AG 2025-04-01
Series:Animals
Subjects:
<i>Hemibagrus macropterus</i>
social hierarchy
nocturnal aggression
habitat preference
intraspecific competition
Online Access:https://www.mdpi.com/2076-2615/15/9/1192
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Summary:This study investigated the aggressive behavior of <i>Hemibagrus macropterus</i> (Bleeker) by examining the effects of size combinations (large vs. large (LL), large vs. small (LS), small vs. small (SS)), sex combinations (male vs. male (MM), male vs. female (FM), female vs. female (FF)), and shelter availability (tiles, pebbles, grass) under varying group densities (1, 3, and 6 fish). The results revealed that <i>H. macropterus</i> exhibited nocturnal behavior, engaging in exploration, territorial defense, and aggressive interactions such as chasing and biting, with significantly higher aggression at night. A social hierarchy distinguishing between dominant and subordinate individuals emerged. Larger fish displayed higher aggression frequencies compared to LS and SS groups, though the presence of shelters reduced aggression, particularly in environments with ample shelters. Females exhibited stronger aggressive tendencies, with FF and FM groups showing higher aggression than MM groups. Shelter preference experiments indicated a preference for tile and pebble caves, with no cohabitation in these shelters, while aquatic plant caves allowed cohabitation. Aggression was significantly higher in competitive (6 fish) versus non-competitive (3 fish) groups. These findings suggest that nocturnal feeding, sufficient shelters, and size-segregated rearing can mitigate aggression and improve cultivation efficiency in <i>H. macropterus</i>.
ISSN:2076-2615

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