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Autores principales: Graham, Olivia J, Aoki, Lillian R, Burge, Colleen A, Harvell, C Drew
Formato: Artículo científico
Lenguaje:en
Publicado: Ecology 2025
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Acceso en línea:https://pubmed.ncbi.nlm.nih.gov/39629590/
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author Graham, Olivia J
Aoki, Lillian R
Burge, Colleen A
Harvell, C Drew
author_facet Graham, Olivia J
Aoki, Lillian R
Burge, Colleen A
Harvell, C Drew
Graham, Olivia J
Aoki, Lillian R
Burge, Colleen A
Harvell, C Drew
collection PubMed - marine biology
contents Invertebrate herbivores influence seagrass wasting disease dynamics. Graham, Olivia J Aoki, Lillian R Burge, Colleen A Harvell, C Drew Animals Herbivory Zosteraceae Isopoda Amphipoda Plant Diseases Snails Although invertebrate herbivores commonly impact terrestrial plant diseases by facilitating transmission of plant pathogens and increasing host susceptibility to infection via wounding, less is known about the role of herbivores in marine plant disease dynamics. Importantly, transmission via herbivores may not be required in the ocean since saline ocean waters support pathogen survival and transmission. Through laboratory experiments with eelgrass (Zostera marina), we showed that isopods (Pentidotea wosnesenskii) and snails (Lacuna spp.) created grazing scars that increased disease severity and thus indirectly facilitated transmission of Labyrinthula zosterae (Lz), a protist that causes seagrass wasting disease. Experiments also quantified different feeding preferences among herbivores: Amphipods (Ampithoe lacertosa) selectively consumed diseased eelgrass, while isopods and snails selectively grazed asymptomatic leaves, suggesting different herbivore taxa may have contrasting impacts on disease dynamics. Our experiments show no sign that herbivores directly vector Lz from diseased to asymptomatic eelgrass. However, we isolated live Lz from isopod, amphipod, and snail feces and detected Lz with quantitative polymerase chain reaction in amphipods and snails, suggesting that herbivores eating diseased eelgrass could pass the live pathogen. Finally, field surveys demonstrated a close association between seagrass wasting disease and invertebrate grazing scars; disease prevalence was 29 ± 4.7% (95% CI) higher on eelgrass leaves with herbivore scars. Collectively, these findings show that some herbivores can increase eelgrass disease risk by facilitating the spread of an important pathogen via wounding, but not via direct transmission. Thus, herbivores may play different roles in plant disease dynamics in terrestrial versus marine ecosystems depending on the pathogen's ability to survive and transmit without a vector.
format Artículo científico
id pubmed_39629590
institution PubMed
language en
publishDate 2025
publisher Ecology
record_format pubmed
spellingShingle Invertebrate herbivores influence seagrass wasting disease dynamics.
Graham, Olivia J
Aoki, Lillian R
Burge, Colleen A
Harvell, C Drew
Animals
Herbivory
Zosteraceae
Isopoda
Amphipoda
Plant Diseases
Snails
Invertebrate herbivores influence seagrass wasting disease dynamics. Graham, Olivia J Aoki, Lillian R Burge, Colleen A Harvell, C Drew Animals Herbivory Zosteraceae Isopoda Amphipoda Plant Diseases Snails Although invertebrate herbivores commonly impact terrestrial plant diseases by facilitating transmission of plant pathogens and increasing host susceptibility to infection via wounding, less is known about the role of herbivores in marine plant disease dynamics. Importantly, transmission via herbivores may not be required in the ocean since saline ocean waters support pathogen survival and transmission. Through laboratory experiments with eelgrass (Zostera marina), we showed that isopods (Pentidotea wosnesenskii) and snails (Lacuna spp.) created grazing scars that increased disease severity and thus indirectly facilitated transmission of Labyrinthula zosterae (Lz), a protist that causes seagrass wasting disease. Experiments also quantified different feeding preferences among herbivores: Amphipods (Ampithoe lacertosa) selectively consumed diseased eelgrass, while isopods and snails selectively grazed asymptomatic leaves, suggesting different herbivore taxa may have contrasting impacts on disease dynamics. Our experiments show no sign that herbivores directly vector Lz from diseased to asymptomatic eelgrass. However, we isolated live Lz from isopod, amphipod, and snail feces and detected Lz with quantitative polymerase chain reaction in amphipods and snails, suggesting that herbivores eating diseased eelgrass could pass the live pathogen. Finally, field surveys demonstrated a close association between seagrass wasting disease and invertebrate grazing scars; disease prevalence was 29 ± 4.7% (95% CI) higher on eelgrass leaves with herbivore scars. Collectively, these findings show that some herbivores can increase eelgrass disease risk by facilitating the spread of an important pathogen via wounding, but not via direct transmission. Thus, herbivores may play different roles in plant disease dynamics in terrestrial versus marine ecosystems depending on the pathogen's ability to survive and transmit without a vector.
title Invertebrate herbivores influence seagrass wasting disease dynamics.
topic Animals
Herbivory
Zosteraceae
Isopoda
Amphipoda
Plant Diseases
Snails
url https://pubmed.ncbi.nlm.nih.gov/39629590/