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The threat of a non-native oligochaete species in Iran's freshwater: Assessment of the diversity and origin of Eiseniella tetraedra (Savigny, 1826) and its response to climate change.

Maryam BagheriMaryam AzimiHadi KhoshnamvandAsghar AbdoliFaraham Ahmadzadeh
Published in: Biology open (2023)
Oligochaetes are the most abundant benthic taxa in aquatic ecosystems that play an important role in food webs. The present study aims to assess the diversity and origin of Eiseniella tetraedra as a non-native species in the Lar National Park of Iran and also its response to current and future climate change. To this, we obtained the specimen from rivers and sequenced the mitochondrial gene Cytochrome Oxidase subunit I (COI) and combined them with 117 sequences from the Jajroud and Karaj rivers in Iran and native regions from GenBank (NCBI). We also run Species Distribution Modelings (SDMs) using an ensemble model approach that was estimated according to two Shared Socio-economic Pathways (SSPs): 126 and 585 of the MRI-ESM2 based on CMIP6. According to the results, all the samples examined in the current study originated from Spanish rivers, and no unique haplotype was found in the Lar National Park. Moreover, the results also show high haplotype diversity that can positively affect the success of this non-native species in different freshwater. Also, the results of SDMs depict that climate change would remarkably affect the distribution of E. tetraedra and it verifies the invasion power of E. tetraedra in Iran's freshwater ecosystems over time.
Keyphrases
  • climate change
  • human health
  • magnetic resonance imaging
  • genetic diversity
  • oxidative stress
  • quality improvement
  • risk assessment
  • genome wide
  • deep learning
  • protein kinase
  • current status