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This digital document is an article from Family Practice News, published by International Medical News Group on June 15, 2000. The length of the article is 440 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser.

Citation Details
Title: Ziprasidone Ameliorates Tourette's Syndrome Tics.(Brief Article)(Statistical Data Included)
Author: Mary Ann Moon
Publication:Family Practice News (Magazine/Journal)
Date: June 15, 2000
Publisher: International Medical News Group
Volume: 30 Issue: 12 Page: 40

Article Type: Brief Article, Statistical Data Included

Distributed by Thomson Gale.
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This digital document is a journal article from Acta Oecologica, published by Elsevier in 2006. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser.

Description:
Five experiments investigated the importance of herbivory by Sminthurus viridis in structuring botanical composition in developing grasslands, and how these effects may be modified by diversity in collembolan and plant species. Differential susceptibility to S. viridis feeding was demonstrated in 23 dicotyledonous and three monocotyledonous plants assayed as seedlings at the first true leaf stage. The composition of seedling communities developing from natural and artificially constructed soil seed banks varied with the level of S. viridis infestation, with plant species least susceptible to herbivory making the greatest contribution to plant biomass. The combined effect of herbivory by S. viridis and Bourletiella hortensis on Trifolium repens biomass was shown to be less than the effect of S. viridis alone, indicating competitive interference. The adverse effects of herbivory by S. viridis on T. repens biomass was reduced by increased diversity of plants growing in association with the legume, and the presence of four non-herbivorous arthropleonan Collembola. S. viridis was shown to reduce seedling numbers, species diversity and biomass in communities developing from the soil seed bank, but the presence of non-herbivorous arthropleonan species reduced the effect of S. viridis. The experiments demonstrate the potential for herbivory by S. viridis to significantly alter species composition in developing grassland communities. However, interactions with collembolan and plant species profoundly modified S. viridis herbivory impacts, either by reducing feeding intensity or enhancing plant growth. These results highlight the fact that data from simple, synthetic systems may be poor predictors of herbivory impacts under field conditions where more complex species interactions occur. .
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This digital document is a journal article from Environmental Pollution, published by Elsevier in . The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser.

Description:
Short-term elevated O"3 reduces photosynthesis, which reduces stomatal conductance (g"s) in response to increased substomatal CO"2 concentration (C"i). Further exposure causes stomata to become sluggish in response to environmental stimuli. Exposure to elevated CO"2 stimulates rapid stomata closure in response to increased C"i. This reduction in g"s may not be sustained over time as photosynthesis down-regulates and with it, g"s. The relationship between g"s and photosynthesis may not be constant because stomata respond more slowly to environmental changes than photosynthesis, and because elevated CO"2 may alter guard cell sensitivity to other signals. Also, reduced stomatal density (and g"s) in response to long-term CO"2 enrichment suggests sustained reduction in g"s. Elevated CO"2 is believed to ameliorate the deleterious O"3 effects by reducing g"s and thus the potential O"3 flux into leaves. Confirmation that g"s acclimation to CO"2 enrichment does not lessen over time is critical for developing meaningful O"3 flux scenarios. .
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