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Herbicide leakage into seawater impacts primary productivity and zooplankton globally

Environmental Studies and Forestry

Herbicide leakage into seawater impacts primary productivity and zooplankton globally

L. Yang, X. He, et al.

Explore the impact of herbicide runoff on our oceans in this groundbreaking study by Liqiang Yang, Xiaotong He, Shaoguo Ru, and Yongyu Zhang. The research reveals how current herbicide levels are affecting phytoplankton productivity and shifting zooplankton dynamics, with potential consequences for coastal ecosystems.

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Playback language: English
Abstract
This study investigates the global impact of herbicide runoff into seawater on primary productivity and zooplankton. Analysis of data from 661 bay and gulf stations worldwide (1990-2022) revealed median triazine herbicide concentrations of 0.18 nmol L⁻¹. At current herbicide levels, phytoplankton primary productivity was inhibited by >5% at 25% of sites and >10% at 10% of sites. This is attributed to the inhibition of sensitive species, shifts in community structure (from Bacillariophyta to Dinophyceae), changes in particle size (nano- to micro-phytoplankton), and reduced growth rates. Consequently, micro-zooplankton shifted from larger copepod larvae to smaller ciliates, potentially impacting food chain efficiency. Herbicide application rates on farmlands correlate with residues in adjacent seas, suggesting that increased herbicide use will further destabilize coastal waters.
Publisher
Nature Communications
Published On
Feb 27, 2024
Authors
Liqiang Yang, Xiaotong He, Shaoguo Ru, Yongyu Zhang
Tags
herbicide runoff
primary productivity
zooplankton
phytoplankton
coastal ecosystems

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