Saved in:
Bibliographic Details
Main Authors: Taheri, Mehrshad, Radmanesh, Ahmad, Bastami, Kazem Darvish, Bagheri, Hosein, Rahnama, Reza, Azizpour, Jafar, Hamzepour, Ali, Foshtomi, Maryam Yazdani, Hamzeh, Mohammad Ali, Rastgoftar, Ehsan
Format: Artículo científico
Language:en
Published: Marine pollution bulletin 2026
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/41192369/
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1868266130302304257
author Taheri, Mehrshad
Radmanesh, Ahmad
Bastami, Kazem Darvish
Bagheri, Hosein
Rahnama, Reza
Azizpour, Jafar
Hamzepour, Ali
Foshtomi, Maryam Yazdani
Hamzeh, Mohammad Ali
Rastgoftar, Ehsan
author_facet Taheri, Mehrshad
Radmanesh, Ahmad
Bastami, Kazem Darvish
Bagheri, Hosein
Rahnama, Reza
Azizpour, Jafar
Hamzepour, Ali
Foshtomi, Maryam Yazdani
Hamzeh, Mohammad Ali
Rastgoftar, Ehsan
Taheri, Mehrshad
Radmanesh, Ahmad
Bastami, Kazem Darvish
Bagheri, Hosein
Rahnama, Reza
Azizpour, Jafar
Hamzepour, Ali
Foshtomi, Maryam Yazdani
Hamzeh, Mohammad Ali
Rastgoftar, Ehsan
collection PubMed - marine biology
contents In the face of decline: The dominant role of sediment composition over hypersalinity and hypoxia in shaping Caspian Sea nematode assemblages. Taheri, Mehrshad Radmanesh, Ahmad Bastami, Kazem Darvish Bagheri, Hosein Rahnama, Reza Azizpour, Jafar Hamzepour, Ali Foshtomi, Maryam Yazdani Hamzeh, Mohammad Ali Rastgoftar, Ehsan Animals Nematoda Geologic Sediments Biodiversity Salinity Seawater Environmental Monitoring Oceans and Seas This study examined free-living nematode communities at 16 stations along the southern coast of the Caspian Sea and their relationship with environmental drivers. Strong environmental gradients were observed along this coastline, including hypersaline conditions in the east (up to 45 ppt) and critically low dissolved oxygen (2.0 mg/L) at Bandargaz. Sediment composition shifted from sandy (>88 % sand) in the west to silt-clay-dominated (>80 %) in the east. Sixteen nematode species were identified, with densities and diversity varying significantly. The highest densities were found at the Gomishan (574.67 ind./10 cm) and Gorganrod (396.33 ind./10 cm) stations in the southern Caspian Sea, and the lowest at Lisar and Sorkhrod (2.67 ind./10 cm). Species richness peaked at Sisangan (8.33) and Anzali (4.33). Multivariate analyses showed distinct community structures, ranging from assemblages dominated by the deposit-feeder Daptonema karabugasensis to those with predators or diverse feeding guilds. The DISTLM analysis identified four key environmental variables shaping the nematode community structure. Sand content was the most influential factor (11.2 %), followed by organic matter (14.4 %), salinity (8.6 %), and temperature (6.0 %). Together, these variables cumulatively explained 40.2 % of the total observed variation. This study provides the first report of coastal hypoxia in the southern Caspian Sea, based on measurements taken during sampling. The findings indicate that local sediment characteristics, exacerbated by extreme gradients in salinity (11.07-45 ppt) and dissolved oxygen (2-9.26 mg/L), are the primary drivers shaping the structure, diversity, and trophic functioning of the nematode community.
format Artículo científico
id pubmed_41192369
institution PubMed
language en
publishDate 2026
publisher Marine pollution bulletin
record_format pubmed
spellingShingle In the face of decline: The dominant role of sediment composition over hypersalinity and hypoxia in shaping Caspian Sea nematode assemblages.
Taheri, Mehrshad
Radmanesh, Ahmad
Bastami, Kazem Darvish
Bagheri, Hosein
Rahnama, Reza
Azizpour, Jafar
Hamzepour, Ali
Foshtomi, Maryam Yazdani
Hamzeh, Mohammad Ali
Rastgoftar, Ehsan
Animals
Nematoda
Geologic Sediments
Biodiversity
Salinity
Seawater
Environmental Monitoring
Oceans and Seas
In the face of decline: The dominant role of sediment composition over hypersalinity and hypoxia in shaping Caspian Sea nematode assemblages. Taheri, Mehrshad Radmanesh, Ahmad Bastami, Kazem Darvish Bagheri, Hosein Rahnama, Reza Azizpour, Jafar Hamzepour, Ali Foshtomi, Maryam Yazdani Hamzeh, Mohammad Ali Rastgoftar, Ehsan Animals Nematoda Geologic Sediments Biodiversity Salinity Seawater Environmental Monitoring Oceans and Seas This study examined free-living nematode communities at 16 stations along the southern coast of the Caspian Sea and their relationship with environmental drivers. Strong environmental gradients were observed along this coastline, including hypersaline conditions in the east (up to 45 ppt) and critically low dissolved oxygen (2.0 mg/L) at Bandargaz. Sediment composition shifted from sandy (>88 % sand) in the west to silt-clay-dominated (>80 %) in the east. Sixteen nematode species were identified, with densities and diversity varying significantly. The highest densities were found at the Gomishan (574.67 ind./10 cm) and Gorganrod (396.33 ind./10 cm) stations in the southern Caspian Sea, and the lowest at Lisar and Sorkhrod (2.67 ind./10 cm). Species richness peaked at Sisangan (8.33) and Anzali (4.33). Multivariate analyses showed distinct community structures, ranging from assemblages dominated by the deposit-feeder Daptonema karabugasensis to those with predators or diverse feeding guilds. The DISTLM analysis identified four key environmental variables shaping the nematode community structure. Sand content was the most influential factor (11.2 %), followed by organic matter (14.4 %), salinity (8.6 %), and temperature (6.0 %). Together, these variables cumulatively explained 40.2 % of the total observed variation. This study provides the first report of coastal hypoxia in the southern Caspian Sea, based on measurements taken during sampling. The findings indicate that local sediment characteristics, exacerbated by extreme gradients in salinity (11.07-45 ppt) and dissolved oxygen (2-9.26 mg/L), are the primary drivers shaping the structure, diversity, and trophic functioning of the nematode community.
title In the face of decline: The dominant role of sediment composition over hypersalinity and hypoxia in shaping Caspian Sea nematode assemblages.
topic Animals
Nematoda
Geologic Sediments
Biodiversity
Salinity
Seawater
Environmental Monitoring
Oceans and Seas
url https://pubmed.ncbi.nlm.nih.gov/41192369/