Steven Y. Newell scite author profile

Mutualisms between fungi and fungus-growing animals are model systems for studying coevolution and complex interactions between species. Fungal growing behavior has enabled cultivating animals to rise to major ecological importance, but evolution of farming symbioses is thought to be restricted to three terrestrial insect lineages. Surveys along 2,000 km of North America's Atlantic coast documented that the marine snail Littoraria irrorata grazes fungus-infected wounds on live marsh grass throughout its range. Field experiments demonstrate a facultative, farming mutualism between Littoraria and intertidal fungi. Snails graze live grass primarily not to feed but to prepare substrate for fungal growth and consume invasive fungi. Fungal removal experiments show that snails and fungi act synergistically to suppress marsh grass production. These results provide a case of fungus farming in the marine environment and outside the class Insecta and reveal a previously undemonstrated ecological mechanism (i.e., facilitation of fungal invasion) by which grazers can exert top-down control of marine plant production.top-down control ͉ salt marshes ͉ fungi-animal interactions

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Small, aloricate ciliates as a major component of the marine heterotrophic nanoplankton1

Sherr

Fallon

et al. 1986

Limnology & Oceanography

166

104

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Fundamental Procedures for Determining Ergosterol Content of Decaying Plant Material by Liquid Chromatography

Newell

Arsuffi

Fallon

1988

Appl Environ Microbiol

240

104

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Portions of published procedures for measurement of ergosterol content of decomposing plants were examined for their influence upon ergosterol yield. Common methods of treatment of plant samples prior to sterol extraction (e.g., oven drying, freezing, lyophilization) led to reduced recoveries of ergosterol (ca. 20 to 80%). The least destructive method was direct placement and storage in methanol. Photoconversion of ergosterol is not likely to cause losses during analysis, but losses are likely if there is insufficient mixing during neutral-lipid partitioning from base-hydrolysis reagents. Homogenization (two times for 2 min) and refluxing (2 h) in methanol were equally effective in extracting ergosterol. Direct extraction in base-hydrolysis reagents was less effective (by ca. 40%).

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Steven Y. Newell

Fungal farming in a snail

Small, aloricate ciliates as a major component of the marine heterotrophic nanoplankton1

Fundamental Procedures for Determining Ergosterol Content of Decaying Plant Material by Liquid Chromatography

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