DOI: 10.3390/ani16131991 ISSN: 2076-2615

Combined Effects of Heat and Cd2+ Stress on Growth, Physiology, and Transcriptomic Responses in Sipunculus nudus

Jianqiang Huang, Ruzhou Zhong, Shaowen Yang, Chuangye Yang, Qingheng Wang, Yuewen Deng

Heat and Cd2+ stress are major environmental challenges for marine benthic invertebrates. This study examined their combined effects on growth, physiology, and transcriptomic responses in the peanut worm (Sipunculus nudus). After 30 days, Cd2+ reduced survival at 26 °C without significantly affecting growth, whereas at 32 °C, both survival and growth declined with increasing Cd2+ concentration, indicating that heat stress exacerbates Cd2+ toxicity. Cd accumulation increased with exposure concentration but was not affected by temperature. Heat stress increased immune (AKP) and antioxidant (SOD, CAT) enzyme activities, although significant increases in SOD and CAT were observed only under Cd2+ exposure. AKP activity rose at low Cd2+ concentrations and fell at high Cd2+ concentrations at 26 °C, whereas no significant difference occurred at 32 °C between 0 and 0.25 mg/L Cd2+. At the same temperature, SOD and CAT activities were significantly higher under high Cd2+ exposure than under low Cd2+ exposure. Transcriptome analysis showed that Cd2+ exposure activated longevity-related pathways, protein processing, and translation initiation. Heat stress activated Jak-STAT signaling and endoplasmic reticulum protein processing while inhibiting the ribosome pathway. Under combined stress, pathways related to xenobiotic metabolism, nutrient digestion and absorption, and amino acid derivative metabolism were broadly suppressed. These results highlight that heat stress exacerbates Cd2+ toxicity, affecting growth, enzyme activity, and transcriptomic responses, and provide insights into the adaptive strategies of marine benthic organisms under the combined pressures of climate change and heavy metal pollution.

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