Frank C. Winter scite author profile

Kelp forests are strongly influenced by macroinvertebrate grazing on fleshy macroalgae. In the North Pacific Ocean, sea otter predation on macroinvertebrates substantially reduces the intensity of herbivory on macroalgae. Temperate Australasia, in contrast, has no known predator of comparable influence. These ecological and biogeographic patterns led us to predict that (i) the intensity of herbivory should be greater in temperate Australasia than in the North Pacific Ocean; thus (ii) Australasian seaweeds have been under stronger selection to evolve chemical defenses and (iii) Australasian herbivores have been more strongly selected to tolerate these compounds. We tested these predictions first by measuring rates of algal tissue loss to herbivory at several locations in Australasian and North Pacific kelp forests. There were significant differences in grazing rates among sea otter-dominated locations in the North Pacific (0-2% day-1), Australasia (5-7% day-'), and a North Pacific location lacking sea otters (80%o day-'). The expectations that chronically high rates of herbivory in Australasia have selected for high concentrations of defensive secondary metabolites (phlorotannins) in brown algae and increased tolerance of these defenses in the herbivores also were supported. Phlorotannin concentrations in kelps and fucoids from Australasia were, on average, 5-6 times higher than those in a comparable suite of North Pacific algae, confirming earlier findings. Furthermore, feeding rates of Australasian herbivores were largely unaffected by phlorotannins, regardless of the compounds' regional source. North Pacific herbivores, in contrast, were consistently deterred by phlorotannins from both Australasia and the North Pacific. These findings suggest that top-level consumers, acting through food chains of various lengths, can strongly influence the ecology and evolution of plantherbivore interactions.The extent to which biological communities are organized by top-down vs. bottom-up forces has been a topical question in ecology for more than 3 decades (1-3). The top-down view is that consumers control the abundance and diversity of species at lower trophic levels, whereas the bottom-up view is that consumers are limited by the upward acting effects of resources (e.g., energy and nutrients). In systems with strong top-down linkages (4), high-level predators can have influences extending to the base of the food web. Complex interactions of this sort, best known in aquatic systems (5-8), have been popularized as trophic cascades (4, 9).Effects of predator-driven trophic cascades on autotrophs should vary depending on whether the number of trophic levels is odd or even (10, 11). The logic underlying this expectation presupposes that (i) the system is under top-down control, and (ii) exploitative competition and predation (or herbivory) are consistently important structuring processes throughout the food web. Under these conditions, we would predict that top-level consumers are resource limited. Consequently, the ne...

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A new assay for quantifying brown algal phlorotannins and comparisons to previous methods

Stern

et al. 1996

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Quantitative measurement of phlorotannins (polyphenolics) in brown algae (Phaeophyta) by colorimetric assays can be confounded because: (1) most such assays also react to nonphlorotannin substances (interferences) and (2) the appropriate reference compound for such assays is not always clear, although phloroglucinol is typically used. We developed a new assay in which 2,4-dimethoxybenzaldehyde (DMBA) reacts specifically with 1,3-and 1,3,5-substituted phenols (e.g., phlorotannins) to form a colored product. This new assay, as well as eliminating the problem of measuring interferences, is inexpensive, rapid, and can be used with small sample volumes. We recommend it for all assays of phlorotannins from one or a set of closely related species where the structural types of phlorotannins present are likely to be similar among samples. It is also appropriate for broader surveys of phlorotannin levels across many species, but in this case a reference must be chosen with care. We also compared the DMBA assay to existing assays, including the Folin-Denis [both before and after the samples were mixed with polyvinylpolypyrrolidone (PVPP)] and the Prussian blue assays. PVPP was not 100% efficient (and often much less) at removing phlorotannins from solution, and its effectiveness varied among different phlorotannins. Thus, in contrast to previous studies, measuring phenolic levels in extracts before and after treatment with PVPP will not necessarily result in an interference-free measure of phlorotannins. Based on an analysis of reactive substances in red and green algae (which do not contain phlorotannins) in the Folin-Denis and Prussian blue assays, we estimate that the average level of interferences (nonphlorotannins) in brown algae measured in these two assays is on the order of 0.5% by dry weight.

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Histopathology of Chloroquine Retinal Toxicity

Wetterholm¹,

Winter²

1964

Archives of Ophthalmology

108

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Experimental evidence for the effects of polyphenolic compounds from Dictyoneurum californicum Ruprecht (Phaeophyta: Laminariales) on feeding rate and growth in the red abalone Haliotus rufescens Swainson

Winter

Estes

1992

Journal of Experimental Marine Biology and Ecology

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The Role of the Adrenal Cortex and Vitamin B12 in Diabetic Retinopathy*

Becker¹,

Allen

Friedenwald

et al. 1954

American Journal of Ophthalmology

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Frank C. Winter

Evolutionary consequences of food chain length in kelp forest communities.

A new assay for quantifying brown algal phlorotannins and comparisons to previous methods

Histopathology of Chloroquine Retinal Toxicity

Experimental evidence for the effects of polyphenolic compounds from Dictyoneurum californicum Ruprecht (Phaeophyta: Laminariales) on feeding rate and growth in the red abalone Haliotus rufescens Swainson

The Role of the Adrenal Cortex and Vitamin B12 in Diabetic Retinopathy*

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