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Books on the topic 'Temperature-adaptation'

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Published: 4 June 2021
Last updated: 11 February 2022

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1

Temperature adaptation in a changing climate: Nature at risk. Cambridge, MA: CAB International, 2012.

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2

Storey, K. B., and K. K. Tanino, eds. Temperature adaptation in a changing climate: nature at risk. Wallingford: CABI, 2011. http://dx.doi.org/10.1079/9781845938222.0000.

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3

Spilsbury, Louise. Keeping warm. London: Evans, 2007.

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4

Jane, Burton. Keeping cool. London: Belitha Press, 1989.

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5

Jane, Burton. Keeping warm. London: Belitha Press, 1989.

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6

Isabekova, S. B. Termobiologii͡a︡ reptiliĭ. Alma-Ata: "Gylym", 1990.

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7

Romanenko, V. D. Mekhanizmy temperaturnoĭ akklimat͡s︡ii ryb. Kiev: Nauk. dumka, 1991.

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8

Pastukhov, I︠U︡ F. Adaptat︠s︡ii︠a︡ k kholodu i uslovii︠a︡m Subarktiki: Problemy termofiziologii. Magadan: MNIT︠S︡ "Arktika", 2003.

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9

G, Edholm O., ed. Man and his thermal environment. London: E. Arnold, 1985.

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10

Sultanov, Fuat Faĭzrakhmanovich. Gormonalʹnye mekhanizmy temperaturnoĭ adaptat͡s︡ii. Ashkhabad: Ylym, 1991.

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11

Sommer, Angela. Mechanismen und Grenzen der Temperaturanpassung beim Pierwurm Arenicola marina (L.) =: Temperature adaptation in the polychaete worm Arenicola marina (L.). : mechanisms and limitations. Bremerhaven: Alfred-Wegener-Institut für Polar- und Meeresforschung, 1998.

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12

Bischoff-Bäsmann, Bettina. Temperaturbedarf und Biogeographie mariner Makroalgen: Anpassung mariner Makroalgen an tiefe Temperaturen = Temperature requirements and biogeography of marine macroalgae : adaptation of marine macroalgae to low temperatures. Bremerhaven: Alfred-Wegener-Institut für Polar- und Meeresforschung, 1997.

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13

1938-, Wells Christine L., ed. Environment and human performance. Champaign, IL: Human Kinetics Publishers, 1986.

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14

Low temperature biology of insects. Cambridge: Cambridge University Press, 2010.

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15

Fuller, Charles A. Effects of centrifuge diameter & operation on rodent adaptation to chronic centrifugation: Final report, NAG2-795. [Washington, DC: National Aeronautics and Space Administration, 1992.

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16

Fuller, Charles A. Effects of centrifuge diameter & operation on rodent adaptation to chronic centrifugation: Final report, NAG2-795. [Washington, DC: National Aeronautics and Space Administration, 1997.

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17

Climate change in the Midwest: Impacts, risks, vulnerability, and adaptation. Bloomington: Indiana University Press, 2012.

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18

A, Johnston Ian, and Bennett Albert F, eds. Animals and temperature: Phenotypic and evolutionary adaptation. Cambridge [England]: Cambridge University Press, 1996.

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19

Alexandrov, Vladimir Ya. Cells, Molecules and Temperature: Conformational Flexibility of Macromolecules and Ecological Adaptation. Brand: Springer, 2012.

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20

Blumberg, Mark S. Body Heat: Temperature and Life on Earth. Harvard University Press, 2004.

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21

Body Heat: Temperature and Life on Earth. Harvard University Press, 2002.

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22

N, Drozdov S., Titov A. F, and Institut biologii (Akademii͡a︡ nauk SSSR. Karelʹskiĭ filial), eds. Termoadaptat͡s︡ii͡a︡ i produktivnostʹ rasteniĭ. Petrozavodsk: Karelʹskiĭ filial AN SSSR, 1986.

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23

Donovich, Slonim Abram, Gilinskiĭ M. A, I͡A︡kimenko M. A, and Institut t͡s︡itologii i genetiki (Akademii͡a︡ nauk SSSR), eds. Sistema termoreguli͡a︡t͡s︡ii pri adaptat͡s︡ii organizma k faktoram sredy: Tezisy dokladov : Vsesoi͡u︡znai͡a︡ konferent͡s︡ii͡a︡, posvi͡a︡shchennai͡a︡ pami͡a︡ti professora Abrama Danilovicha Slonima, 18-20 senti͡a︡bri͡a︡ 1990 g. Novosibirsk: [s.n.], 1990.

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24

(Editor), Ian A. Johnston, and Albert F. Bennett (Editor), eds. Animals and Temperature: Phenotypic and Evolutionary Adaptation (Society for Experimental Biology Seminar Series). Cambridge University Press, 1996.

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25

(Editor), Ian A. Johnston, and Albert F. Bennett (Editor), eds. Animals and Temperature: Phenotypic and Evolutionary Adaptation (Society for Experimental Biology Seminar Series). Cambridge University Press, 2009.

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26

Basra, Amarjit S. Crop Responses and Adaptations to Temperature Stress. Food Products Press, 2000.

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27

Crop Responses and Adaptations to Temperature Stress. Haworth Press, 2000.

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28

C, Tinsley R., and Chappell Leslie H, eds. Parasite adaptation to environmental constraints. Cambridge: Cambridge University Press, 1999.

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29

BLUMBERG, Mark Samuel. Body Heat. Harvard University Press, 2009.

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30

Living In A Seasonal World Thermoregulatory And Metabolic Adaptations. Springer, 2012.

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31

Steigerwald, Kira A. Ice nucleating active microorganisms and their hosts. 1994.

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32

Mugnano, John A. Ice nucleation and regulation of freezing in natural and applied systems. 1994.

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33

Collins, Stephen Douglas. An ultrastructural study of brain, muscle, and malpighian tubule from the freeze-tolerant gall fly larva, Eurosta solidaginis. 1994.

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34

V, Lupandin I͡U︡, and Petrozavodskiĭ gosudarstvennyĭ universitet im. O.V. Kuusinena., eds. Dvigatelʹnye mekhanizmy zashchity organizma ot kholoda. Leningrad: Izd-vo Leningradskogo universiteta, 1988.

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35

Jane, Burton. Keeping Warm (Animal Activities). Gareth Stevens Pub, 1989.

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36

1936-, Shiraki Keizo, Yousef Mohamed K, and International Symposium on Physiology of Stressful Environments (1986 : Japan), eds. Man in stressful environments: Thermal and work physiology. Springfield, Ill., U.S.A: C.C. Thomas, 1987.

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37

J, Henle Kurt, ed. Thermotolerance. Boca Raton, Fla: CRC Press, 1987.

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38

G, Kuo C., Asian Vegetable Research and Development Center., Xing zheng yuan nong ye wei yuan hui (China), and Zhong yang yan jiu yuan. Zhi wu yan jiu suo., eds. Adaptation of food crops to temperature and water stress: Proceedings of an international symposium, Taiwan, 13-18 August 1992. Taipei: Asian Vegetable Research and Development Center, 1993.

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39

1935-, Zeisberger E., Schönbaum E, Lomax Peter 1928-, and International Symposium on the Pharmacology of Thermoregulation (7th : 1994 : Giessen, Germany), eds. Thermal balance in health and disease: Recent basic research and clinical progress. Basel: Birkhäuser Verlag, 1994.

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40

Gisolfi, Carl V., and Mora Francisco. Hot Brain: Survival, Temperature, and the Human Body. MIT Press, 2003.

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41

Gisolfi, Carl V., and Francisco Mora Teruel. Hot Brain: Survival, Temperature, and the Human Body. MIT Press, 2002.

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42

The Hot Brain: Survival, Temperature, and the Human Body. The MIT Press, 2000.

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43

Thermophilic Microbes in Environmental and Industrial Biotechnology 2nd Ed. Springer, 2012.

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44

Cossins, Andrew R. Temperature Adaptation of Biological Membranes: Proceedings of the Meeting Held in Cambridge Under the Auspices of the Society for Experimental Biolog (Portland Press Research Monograph,). Portland Press, London, 1994.

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45

R, Cossins Andrew, and Society for Experimental Biology (Great Britain), eds. Temperature adaptation of biological membranes: Proceedings of the meeting held in Cambridge under the auspices of the Society for Experimental Biology in conjunction with its US/Canadian counterparts. London: Portland Press, 1994.

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46

Newman, Chris, Christina D. Buesching, and David W. Macdonald. Meline mastery of meteorological mayhem: the effects of climate changeability on European badger population dynamics. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198759805.003.0021.

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Adaptation to climatic conditions is a major ecological and evolutionary driver. Long-term study of European badger population dynamics in Oxfordshire reveals that rainfall and temperature patterns affect food (principally earthworm) availability, energy expended in thermoregulation, and activity patterns, with badgers able to seek refuge in their setts. Cubs prove especially vulnerable to harsh weather conditions, where drought and food shortages exacerbate the severity of pandemic juvenile coccidial parasite infections. Crucially, weather variability, rather than just warming trends, stresses badgers, by destabilising their bioclimatic niche. Summer droughts cause mortality, even driving genetic selection; and while milder winters generally benefit badgers, less time spent in torpor leads to more road casualties. Similar effects also operate over a wide spatial scale in Ireland, impacting regional badger densities and bodyweights. That even an adaptable, generalist musteloid is so variously susceptible to weather conditions highlights how climate change places many species and ecosystems at risk.
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47

Levy, Barry S., and Jonathan A. Patz. Climate Change. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780190662677.003.0032.

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Environmental consequences of climate change include increases in temperature as well as frequency, severity, and/or duration of heat waves; heavy precipitation events; intensity and/or duration of drought; intense tropical cyclone activity, and sea level. Adverse health consequences of climate change include heat-related disorders, respiratory disorders, allergic disorders, vector-borne diseases, waterborne and foodborne disease, and injuries related to extreme weather events. Adverse health consequences also include indirect effects of climate change on health related to decreased agriculture yields and food shortages, distress migration, and collective violence. In addition, all of the consequences of climate change can adversely affect the mental health of individuals, communities, and entire nations. The primary ways of addressing climate change are mitigation (policies and actions to stabilize or reduce the emission of greenhouse gases) and adaptation (policies and actions to reduce the impact of climate change). Building popular and political will to address climate change is essential.
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48

Zaitchik, Benjamin F. Climate and Health across Africa. Oxford University Press, 2017. http://dx.doi.org/10.1093/acrefore/9780190228620.013.555.

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Humans have understood the importance of climate to human health since ancient times. In some cases, the connections appear to be obvious: a flood can cause drownings, a drought can lead to crop failure and hunger, and temperature extremes pose a risk of exposure. In other cases, the connections are veiled by complex or unobserved processes, such that the influence of climate on a disease epidemic or a conflict can be difficult to diagnose. In reality, however, all climate impacts on health are mediated by some combination of natural and human dynamics that cause individuals or populations to be vulnerable to the effects of a variable or changing climate.Understanding and managing negative health impacts of climate is a global challenge. The challenge is greater in regions with high poverty and weak institutions, however, and Africa is a continent where the health burden of climate is particularly acute. Observed climate variability in the modern era has been associated with widespread food insecurity, significant epidemics of infectious disease, and loss of life and livelihoods to climate extremes. Anthropogenic climate change is a further stress that has the potential to increase malnutrition, alter the distribution of diseases, and bring more frequent hydrological and temperature extremes to many regions across the continent.Skillful early warning systems and informed climate change adaptation strategies have the potential to enhance resilience to short-term climate variability and to buffer against negative impacts of climate change. But effective warnings and projections require both scientific and institutional capacity to address complex processes that are mediated by physical, ecological, and societal systems. Here the state of understanding climate impacts on health in Africa is summarized through a selective review that focuses on food security, infectious disease, and extreme events. The potential to apply scientific understanding to early warning and climate change projection is also considered.
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49

van der Hoeven, Frank, and Alexander Wandl. Hotterdam: How space is making Rotterdam warmer, how this affects the health of its inhabitants, and what can be done about it. TU Delft Open, 2015. http://dx.doi.org/10.47982/bookrxiv.1.

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Heat waves will occur in Rotterdam with greater frequency in the future. Those affected most will be the elderly – a group that is growing in size. In the light of the Paris heat wave of August 2003 and the one in Rotterdam in July 2006, mortality rates among the elderly in particular are likely to rise in the summer. METHOD The aim of the Hotterdam research project was to gain a better understanding of urban heat. The heat was measured and the surface energy balance modelled from that perspective. Social and physical features of the city we identified in detail with the help of satellite images, GIS and 3D models. We determined the links between urban heat/surface energy balance and the social/physical features of Rotterdam by multivariable regression analysis. The crucial elements of the heat problem were then clustered and illustrated on a social and a physical heat map. RESULTS The research project produced two heat maps, an atlas of underlying data and a set of adaptation measures which, when combined, will make the city of Rotterdam and its inhabitants more aware and less vulnerable to heat wave-related health effects. CONCLUSION In different ways, the pre-war districts of the city (North, South, and West) are warmer and more vulnerable to urban heat than are other areas of Rotterdam. The temperature readings that we carried out confirm these findings as far as outdoor temperatures are concerned. Indoor temperatures vary widely. Homes seem to have their particular dynamics, in which the house’s age plays a role. The above-average mortality of those aged 75 and over during the July 2006 heat wave in Rotterdam can be explained by a) the concentration of people in this age group, b) the age of the homes they live in, and c) the sum of sensible heat and ground heat flux. A diverse mix of impervious surfaces, surface water, foliage, building envelopes and shade make one area or district warmer than another. Adaptation measures are in the hands of residents, homeowners and the local council alike, and relate to changing behaviour, physical measures for homes, and urban design respectively.
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50

Effects of centrifuge diameter & operation on rodent adaptation to chronic centrifugation: Final report, NAG2-795. [Washington, DC: National Aeronautics and Space Administration, 1997.

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