Results 291 to 300 of about 3,992,054 (343)
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Body water distribution and disease
Acta Diabetologica, 2003The study of body water distribution between extra- and intra-cellular spaces has the potential to improve our knowledge on the mechanisms of disease. A major challenge is that of establishing whether commonly detected subclinical alterations of body water distribution have prognostic or clinical implications.
Bedogni G., Borghi A., Battistini N.
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ON BODY FAT AND BODY WATER IN RATS
Canadian Journal of Biochemistry and Physiology, 1955Under our experimental conditions, water represented 72% of the fat-free body mass. This constant was found to be completely independent of the magnitude of the fat depots. Consideration of the composition of various samples of adipose tissue suggests that the water to fat-free dry matter ratio is the same as in the body as a whole or that any "excess"
Louis-Marie Babineau, Edouard Pagé
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Bodies of Thought, Bodies of Water
Departures in Critical Qualitative Research, 2016This essay is an experiment in what happens when you read Kathleen's Stewart's ideas about affect and agency together with Sara Ahmed's consideration of queer orientations and the willful subject as they are played out in stories of adoption, motherhood, choices, and desire.
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Yoga Bodies and Bodies of Water
2018This chapter analyzes the confluence of environmental politics, biopolitics, and the cultural role of yoga in India. It begins with an overview of India’s current economic development challenges and shows how the country’s current prime minister has subsumed both yoga bodies and water bodies into biopolitical discourse to support a neoliberal economic ...
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Identification of Water Bodies
2004As shown in Fig. 2.1, the first step that should be taken in the HMWB and AWB identification and designation process is the identification and description of distinct water bodies.
Wenke Hansen, Eleftheria Kampa
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, 1966 In A Book that concentrates chiefly upon terrestrial communities and can at most give only an outline of the characters of some of these, it is not practicable to allot an equally large space to aquatic communities, for many of which there are in any case special books and monographs.
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, 1986 We have evolved from the sea and are composed mostly of water. Evidence from phylogeny* and ontogeny** suggest that the amount of water appears to decrease continually as we age. An embryo is about 90% water, a newborn child about 80% water, a mature adult about 70% water, and an older adult about 60% water. Recent work indicates that in senescence the
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1987
It is well known that most of our globe’s surface is covered by water. Water is not only found in the oceans, but also in other large bodies such as lakes and inland seas. The morphology of such features shows some interesting traits (Figs. 7.11 to 7.14).
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It is well known that most of our globe’s surface is covered by water. Water is not only found in the oceans, but also in other large bodies such as lakes and inland seas. The morphology of such features shows some interesting traits (Figs. 7.11 to 7.14).
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1977
In chapters I–IX we examined the specific features of nekton as an ecomorphological type of animal. Now we shall dwell on some general characteristics of the formation of nekton dependent on the properties of the body of water in which they dwell.
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In chapters I–IX we examined the specific features of nekton as an ecomorphological type of animal. Now we shall dwell on some general characteristics of the formation of nekton dependent on the properties of the body of water in which they dwell.
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