Institution
University of Rhode Island
Education•Kingston, Rhode Island, United States•
About: University of Rhode Island is a education organization based out in Kingston, Rhode Island, United States. It is known for research contribution in the topics: Population & Bay. The organization has 11464 authors who have published 22770 publications receiving 841066 citations. The organization is also known as: URI & Rhode Island College of Agriculture and the Mechanic Arts.
Topics: Population, Bay, Poison control, Transtheoretical model, Behavior change
Papers published on a yearly basis
Papers
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TL;DR: The overall floral response to nutrient addition in seagrass communities depends, therefore, upon the particular nutrient supplied, the ability of alternate species in the area to compete for that nutrient and the velocity of current in the specific area.
Abstract: Seagrass and algal beds showed a variety of reponses when the water column was treated with low level additions of ammonium, nitrate and phosphate. The nutrients were added separately to 3 uniform seagrass beds of a temperature coastal lagoon during 1979 and 1980. (1) Ammonium caused the production of dense mats of free-floating green algae Enteromorpha plumosa and Ulva lactuca. It also stimulated growth in both the leaf and root-rhizome fractions of Zostera marina. This growth response in Z. marina was greater in the area where current reached 12 cm · s-1 than in the area with little or no current. The concentration of nitrogen in the tissue did not change. In contrast, where current was lacking, Z. marina growth increase with ammonium was small, but the concentration of nitrogen in the tissue doubled over that in control plots. The growth of Ruppia maritima was inversely related to the growth of green algae in the same plots. The red alga Gracilaria tikvahiae did not grow better in ammonium, but its tissue reddened. (2) Nitrate additions enhanced the growth of the green seaweeds Enteromorpha spp. and U. lactuca, but not Z. marina or R. maritima. G. tikvahiae, when fertilized in isolation from other plants, showed a marginal response to this nutrient, and the tissue always reddened. (3) Phosphate enhanced growth in Z. marina and R. maritima exposed to moderate current. G. tikvahiae growing alone showed a small growth response to phosphate. The phosphate made no difference in the growth of the green seaweeds. (4) None of the nutrient supplements noticeably altered the species composition of either epiphytic or planktonic algae associated with the beds, although we did detect small increases in their numbers. The rapid and dense growth of green algae in nitrogen-enriched water probably limited growth of adjacent seagrasses and red algae. Because these seaweeds did not use the phosphate, it became available to other plant components. The overall floral response to nutrient addition in seagrass communities depends, therefore, upon the particular nutrient supplied, the ability of alternate species in the area to compete for that nutrient and the velocity of current in the specific area.
219 citations
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TL;DR: Since enteric pathogens that fail to compete successfully for nutrients cannot colonize, a basic understanding of the nutritional basis of intestinal colonization will inform efforts to develop prebiotics and probiotics to combat infection.
Abstract: E. coli is a ubiquitous member of the intestinal microbiome. This organism resides in a biofilm comprised of a complex microbial community within the mucus layer where it must compete for the limiting nutrients that it needs to grow fast enough to stably colonize. In this article we discuss the nutritional basis of intestinal colonization. Beginning with basic ecological principles we describe what is known about the metabolism that makes E. coli such a remarkably successful member of the intestinal microbiota. To obtain the simple sugars and amino acids that it requires, E. coli depends on degradation of complex glycoproteins by strict anaerobes. Despite having essentially the same core genome and hence the same metabolism when grown in the laboratory, different E. coli strains display considerable catabolic diversity when colonized in mice. To explain why some E. coli mutants do not grow as well on mucus in vitro as their wild type parents yet are better colonizers, we postulate that each one resides in a distinct "Restaurant" where it is served different nutrients because it interacts physically and metabolically with different species of anaerobes. Since enteric pathogens that fail to compete successfully for nutrients cannot colonize, a basic understanding of the nutritional basis of intestinal colonization will inform efforts to develop prebiotics and probiotics to combat infection.
219 citations
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TL;DR: In this article, Japanese bidders and U.S. targets increase with bidder's leverage, the bidder's ties to financial institutions through borrowings, and the depreciation of the dollar in relation to the Japanese yen.
219 citations
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TL;DR: This paper developed a discrete choice model of supply response under uncertainty and applied it to fishery choice problems of New England fishing firms and found that sufficient incentives, in terms of changes in expected returns and risk, elicit response.
218 citations
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TL;DR: The analyses suggest that dinoflagellate blooms do not preponderate in stratified watermassed because the bloom species are biophysically intolerant of the higher velocities and turbulence of more mixed watermasses.
218 citations
Authors
Showing all 11569 results
Name | H-index | Papers | Citations |
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James M. Tiedje | 150 | 688 | 102287 |
Roberto Kolter | 120 | 315 | 52942 |
Robert S. Stern | 120 | 761 | 62834 |
Michael S. Feld | 119 | 552 | 51968 |
William C. Sessa | 117 | 383 | 52208 |
Kenneth H. Mayer | 115 | 1351 | 64698 |
Staffan Kjelleberg | 114 | 425 | 44414 |
Kevin C. Jones | 114 | 744 | 50207 |
David R. Nelson | 110 | 615 | 66627 |
Peter K. Smith | 107 | 855 | 49174 |
Peter M. Groffman | 106 | 457 | 40165 |
Ming Li | 103 | 1669 | 62672 |
Victor Nizet | 102 | 564 | 44193 |
Anil Kumar | 99 | 2124 | 64825 |
James O. Prochaska | 97 | 320 | 73265 |