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Artykuły w czasopismach na temat "Temperature-adaptation"

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KAMIHARA, Teijiro, i Midori YAMAMURA. "Temperature Adaptation in Yeast". JOURNAL OF THE BREWING SOCIETY OF JAPAN 87, nr 11 (1992): 773–79. http://dx.doi.org/10.6013/jbrewsocjapan1988.87.773.

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HAN Xu, 韩旭, 马军 MA Jun, 黎明 LI Ming, 付跃刚 FU Yue-gang i 王加科 WANG Jia-ke. "Temperature adaptation of mapping camera". Optics and Precision Engineering 20, nr 6 (2012): 1175–81. http://dx.doi.org/10.3788/ope.20122006.1175.

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Bagriantsev, Sviatoslav N., i Elena O. Gracheva. "Molecular mechanisms of temperature adaptation". Journal of Physiology 593, nr 16 (5.01.2015): 3483–91. http://dx.doi.org/10.1113/jphysiol.2014.280446.

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ENDO, Ayako, Mayumi SASAKI, Akihiko MARUYAMA i Yasurou KURUSU. "Temperature Adaptation ofBacillus subtilisby ChromosomalgroELReplacement". Bioscience, Biotechnology, and Biochemistry 70, nr 10 (23.10.2006): 2357–62. http://dx.doi.org/10.1271/bbb.50689.

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Rahmann, H. "Brain gangliosides and temperature adaptation". Cryobiology 25, nr 6 (grudzień 1988): 557. http://dx.doi.org/10.1016/0011-2240(88)90437-3.

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Erdal, Ufuk G., Zeynep K. Erdal i Clifford W. Randall. "ADAPTATION OF EBPR BACTERIA TO COLD TEMPERATURE THROUGH HOMEOVISCOUS ADAPTATION". Proceedings of the Water Environment Federation 2002, nr 15 (1.01.2002): 145–59. http://dx.doi.org/10.2175/193864702784247675.

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Schoetter, Robert, David Grawe, Peter Hoffmann, Peter Kirschner, Angelika Grätz i K. Heinke Schlünzen. "Impact of local adaptation measures and regional climate change on perceived temperature". Meteorologische Zeitschrift 22, nr 2 (1.04.2013): 117–30. http://dx.doi.org/10.1127/0941-2948/2013/0381.

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Junttila, Olavi. "Plant adaptation to temperature and photoperiod". Agricultural and Food Science 5, nr 3 (1.05.1996): 251–60. http://dx.doi.org/10.23986/afsci.72744.

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Plants respond to environmental conditions both by adaptation and by acclimation. The ability of the plants to grow, reproduce and survive under changing climatic conditions depends on the efficiency of adaptation and acclimation. The adaptation of developmental processes in plants to temperature and photoperiod is briefly reviewed. In annual plants this adaptation is related to growth capacity and to the timing of reproduction. In perennial plants growing under northern conditions, adaptation of the annual growth cycle to the local climatic cycle is of primary importance. Examples of the role of photothermal conditions in regulation of these phenological processes are given and discussed. The genetic and physiological bases for climatic adaptation in plants are briefly examined.
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Palonen, Eveliina, Miia Lindström i Hannu Korkeala. "Adaptation of enteropathogenicYersiniato low growth temperature". Critical Reviews in Microbiology 36, nr 1 (20.01.2010): 54–67. http://dx.doi.org/10.3109/10408410903382581.

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Chen, Tony H. H. "Plant adaptation to low temperature stress". Canadian Journal of Plant Pathology 16, nr 3 (1.09.1994): 231–36. http://dx.doi.org/10.1080/07060669409500760.

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Rozprawy doktorskie na temat "Temperature-adaptation"

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Jagdale, Ganpati Baburao. "Adaptation to temperature in entomopathogenic nematodes". Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1997. http://www.collectionscanada.ca/obj/s4/f2/dsk3/ftp04/nq25772.pdf.

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Paget, Caroline Mary. "Environmental systems biology of temperature adaptation in yeast". Thesis, University of Manchester, 2013. https://www.research.manchester.ac.uk/portal/en/theses/environmental-systems-biology-of-temperature-adaptation-in-yeast(597a675a-aaf1-43bf-bd6c-143aeefc98be).html.

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Temperature is arguably the leading factor that drives adaptation of organisms and ecosystems. Remarkably, many sister species share the same habitat because of their different temporal or micro-spatial thermal adaptation. In this PhD, the underlying molecular mechanisms of the adaptation of closely related species to different temperatures are sought. A thermodynamic analysis was applied to a genome-scale metabolic model of S. cerevisiae at warm and cold temperatures to identify thermo-dependent reactions. Gene Ontology (GO) analysis of predicted cold-dependent reactions found that redox reactions were significantly enriched. A complementary large scale experimental approach was taken by competing 6,000 mutant strains at 16°C to identify genes that were responsible for the fitness at low temperatures. The experiment was carried out in three different nutritional conditions to test the plasticity of temperature dependency. A list of strains whose copy number significantly increased or decreased in all media conditions was constructed and analysed using Gene Ontology. Vitamin biosynthesis, lipid/fatty acid processes and oxido-reduction reactions were all found to be significantly affected by the cold condition. Combining the data from the two studies a list of candidate genes affected by temperature changes were generated. In particular, two genes, GUT2 and ADH3, were identified as potential cold favouring genes and studied in more detailed. Mutants for these two genes were created in a pair of natural sympatric cryotolerant and thermotolerant Saccharomyces yeasts, namely S. kudriavzevii CA111 and S. cerevisiae 96.2, representing an excellent ecological experimental model for differential temperature adaption. My results showed that when compared to the parental strains, both mutants showed lower fitness at cold temperatures as predicted, and in S. kudriavzevii CA111 these mutations significantly improve growth at warm temperatures. Results from all aspects of this work indicate that oxidation reduction reactions are important for cold acclimation. It is known that heat stress causes redox imbalances which are compensated by increasing glycerol production or cytosolic acetaldehyde. Since GUT2 and ADH3 are involved in these processes, mutations in these genes may not be able to compensate for temperature changes. My data also shows that vitamins may also play an important role in cold acclimation which would be an interesting line of investigation for future work. Overall this PhD thesis has incorporated in silico and in vivo work to identify potential processes and genes involved in the temperature adaptation of sister Saccharomyces yeast species. The approach and results provided in this study support the use of a systems biology framework to studying species adaptation to environmental changes, and show that such models can yield testable predictions that may lead to new biological discoveries.
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Hong, Dennis Hwe-Yang. "Temperature adaptation and range expansion of bacteriophage Phi-6 /". Diss., Connect to a 24 p. preview or request complete full text in PDF format. Access restricted to UC campuses, 2002. http://wwwlib.umi.com/cr/ucsd/fullcit?p3070998.

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Steigenga, Marc Johan. "Adaptation or physiological constraint : temperature-mediated plasticity in reproduction". kostenfrei, 2008. http://opus.ub.uni-bayreuth.de/volltexte/2008/493/.

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Sweeney, Blake Alexander. "Development of a System for Studying Temperature Adaptation of Structural RNAS". Bowling Green State University / OhioLINK, 2011. http://rave.ohiolink.edu/etdc/view?acc_num=bgsu1321542150.

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Behan, Moira Kathleen. "Homeoviscous adaptation to temperature and pressure. A biophysical and biochemical study". Thesis, University of Liverpool, 1990. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.279656.

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Butler, Ethan E. "American Maize: Climate Change, Adaptation, and Spatio-Temporal Variation in Temperature Sensitivity". Thesis, Harvard University, 2015. http://nrs.harvard.edu/urn-3:HUL.InstRepos:17463972.

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Agricultural production is vulnerable to climate change. However, this vulnerability can be reduced by adapting food crops to a hotter climate. Many studies have ignored adaptation when quantifying the effect of climate change on crop yield, which has likely overestimated yield losses. Therefore, it is necessary to quantify agriculture's adaptive potential to climate change. Such work is challenging because there are no historical analogues to current or future warming. In place of such a precedent this work explores the varying sensitivity of maize yield to elevated temperatures through a suite of multiple linear regression models. These models use high resolution yield and crop development data available since 1981 in the United States to account for overlooked features of maize physiology and agricultural management. The results of these models substantially alter estimates of how crops will respond to a warming environment. The studies here illustrate how finer scale details can be incorporated into broader regional models. Temperature sensitivity is found to vary with local climatology indicating that maize cultivars are adapted to their particular environment. Incorporating this historical adaptation into estimates of yield loss substantially reduces the effect of a modest warming. A physiological basis for spatial adaptation is apparent when maize development data are incorporated into the model -- cooler regions accelerate through sensitive development phases faster than hotter areas. The development data also suggest that crop development has been adapted to the seasonal cycle and that a non-trivial portion of the temporal trend in maize yield has resulted from management adjustments. Finally, the importance of spatio-temporal variation in temperature sensitivity is highlighted through case studies of recent years with record-setting yield losses. Spatial and/or temporal variation in temperature sensitivity is necessary to reduce bias in estimates of yield loss in these years. This work builds from previous conclusions regarding the negative effects of hot temperatures, and suggests that while hotter temperatures will harm maize yields there are steps that farmers might take to manage and reduce these losses. Taken together these results quantify how extant adaptation may help to ameliorate yield losses in a hotter future.
Earth and Planetary Sciences
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Gracey, Andrew Y. "Cold-adaptation of carp (Cyprinus carpio L.) : lipid unsaturation and induced desaturase expression". Thesis, University of Liverpool, 1996. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.321117.

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Winnard, Jr Paul. "Cold-Temperature Adaptation of Muscle Creatine Kinase from an Antartic Teleost (Chaenocephalus Aceratus)". Fogler Library, University of Maine, 2001. http://www.library.umaine.edu/theses/pdf/WinnardP2001.pdf.

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Schoenberger, Shirley Ann 1943. "High-temperature adaptation of three Sonoran Desert Bacillus species: Ecological and evolutionary prospects". Thesis, The University of Arizona, 1996. http://hdl.handle.net/10150/278546.

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Growth at high temperature of wild isolates of three species of Bacillus was analyzed to assess potential responses to global warming. Experimental populations were grown at temperatures from 32° to 60° C. The higher temperatures include ones near and above maxima previously reported for laboratory strains. Summer soil temperatures, three centimeters below the ground surface, were recorded at the same site from which the wild isolates came, show that temperatures in the Sonoran Desert often reach 50° to 60° C. The growth data show that the desert isolates of B. subtilis and B. licheniformis have thermal maxima close to those reported by Gordon et al. (1973), while B. megaterium grew well at 2-3°C above the reported maximum. Global Climate Models predict a rise of 1° to 4.5°C over the next 60-100 years. Such a rise could shorten periods of active growth and nutrient cycling by Bacillus decomposers.
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Książki na temat "Temperature-adaptation"

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

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

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

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

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

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

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

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

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

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

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Części książek na temat "Temperature-adaptation"

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Di Prisco, G., i B. Giardina. "Molecular Aspects of Temperature Adaptation". W Hemoglobin Function in Vertebrates, 1–21. Milano: Springer Milan, 2000. http://dx.doi.org/10.1007/978-88-470-2111-2_1.

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Kumar, Sandeep, Sunil Arya i Ruth Nussinov. "Temperature-Dependent Molecular Adaptation Features in Proteins". W Physiology and Biochemistry of Extremophiles, 75–85. Washington, DC, USA: ASM Press, 2014. http://dx.doi.org/10.1128/9781555815813.ch6.

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Ciardiello, M. A., L. Camardella i G. di Prisco. "Temperature adaptation in enzymes of antarctic fish". W Cold-Adapted Organisms, 297–304. Berlin, Heidelberg: Springer Berlin Heidelberg, 1999. http://dx.doi.org/10.1007/978-3-662-06285-2_16.

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Nakai, Akira. "Proteostasis and Adaptation to High Temperature Stress". W Heat Shock Factor, 3–29. Tokyo: Springer Japan, 2016. http://dx.doi.org/10.1007/978-4-431-55852-1_1.

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Trojanowski, Krzysztof, i Artur Mikitiuk. "Sensor Network Schedule Adaptation for Varying Operating Temperature". W Ad-Hoc, Mobile, and Wireless Networks, 633–42. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-31831-4_47.

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Beall, Cynthia M., Nina G. Jablonski i A. Theodore Steegmann. "Human Adaptation to Climate: Temperature, Ultraviolet Radiation, and Altitude". W Human Biology, 175–250. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2012. http://dx.doi.org/10.1002/9781118108062.ch6.

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Larskaja, I., T. Barisheva i A. Zabotin. "Investigation of the Chlorophyll’s State During Low Temperature Adaptation". W Photosynthesis: Mechanisms and Effects, 2509–12. Dordrecht: Springer Netherlands, 1998. http://dx.doi.org/10.1007/978-94-011-3953-3_588.

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Trojanowski, Krzysztof, Artur Mikitiuk i Jakub A. Grzeszczak. "Runtime Sensor Network Schedule Adaptation to Varying Temperature Conditions". W Computer Information Systems and Industrial Management, 477–88. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-84340-3_39.

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Ayanlade, Ayansina, Isaac Ayo Oluwatimilehin, Adeola A. Oladimeji, Godwin Atai i Damilola T. Agbalajobi. "Climate Change Adaptation Options in Farming Communities of Selected Nigerian Ecological Zones". W African Handbook of Climate Change Adaptation, 297–313. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-45106-6_156.

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AbstractThis chapter examines the impacts of climate change on three tropical crops and assesses the climate change adaptation options adopted by rural farmers in the region. The study was conducted among farming communities settled in three major ecological zones in Nigeria. Over 37 years of data on rainfall and temperature were analyzed to examine climate change impacts on three major crops: rice, maize, and cassava. Farmers’ adaptive capacity was assessed with a survey. Climatic data, crop yields, and survey data were analyzed using both descriptive and inferential statistics. The relation between rainfall/temperature and crop yields was examined using the Pearson correlation coefficient. Results show a high variation in the annual rainfall and temperature during the study period. The major findings from this research is that crops in different ecological zones respond differently to climate variation. The result revealed that there is a very strong relationship between precipitation and the yield of rice and cassava at p <0.05 level of significance. The results further showed low level of adaption among the rural farmers. The study concludes that rainfall and temperature variability has a significant impact on crop yield in the study area, but that the adaptive capacity of most farmers to these impacts is low. There is a need for enhancing the adaptation options available to farmers in the region, which should be the focus of government policies.
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Mondal, Suchismita, Arun K. Joshi, Julio Huerta-Espino i Ravi P. Singh. "Early Maturity in Wheat for Adaptation to High Temperature Stress". W Advances in Wheat Genetics: From Genome to Field, 239–45. Tokyo: Springer Japan, 2015. http://dx.doi.org/10.1007/978-4-431-55675-6_26.

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Streszczenia konferencji na temat "Temperature-adaptation"

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Amrouch, Hussam, Behnam Khaleghi i Jorg Henkel. "Voltage Adaptation Under Temperature Variation". W 2018 15th International Conference on Synthesis, Modeling, Analysis and Simulation Methods and Applications to Circuit Design (SMACD). IEEE, 2018. http://dx.doi.org/10.1109/smacd.2018.8434855.

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Laketic, D., i P. C. Haddow. "Extreme Temperature Electronics - from Materials to Bio-inspired Adaptation". W 2007 2nd NASA/ESA Conference on Adaptive Hardware and Systems. IEEE, 2007. http://dx.doi.org/10.1109/ahs.2007.53.

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Laciak, Marek, Jan Kacur, Milan Durdan i Patrik Flegner. "System of indirect measurement temperature of melt with adaptation module". W 2015 16th International Carpathian Control Conference (ICCC). IEEE, 2015. http://dx.doi.org/10.1109/carpathiancc.2015.7145088.

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Ghosh, Swaroop, Swarup Bhunia i Kaushik Roy. "Low-Overhead Circuit Synthesis for Temperature Adaptation Using Dynamic Voltage Scheduling". W Design, Automation & Test in Europe Conference. IEEE, 2007. http://dx.doi.org/10.1109/date.2007.364518.

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Gaskell, Daniel, Mojtaba Fakhraee, Noah Planavsky i Pincelli Hull. "Ecological Adaptation Moderates the Temperature-Sensitivity of the Biological Carbon Pump". W Goldschmidt2020. Geochemical Society, 2020. http://dx.doi.org/10.46427/gold2020.801.

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Hammouma, C., H. Zeroug i A. Attab. "Combined PDM with Frequency-Temperature Profile Adaptation Control for Induction Metal Hardening". W IECON 2018 - 44th Annual Conference of the IEEE Industrial Electronics Society. IEEE, 2018. http://dx.doi.org/10.1109/iecon.2018.8591430.

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Egorova, Tatyana Polikarpovna, i Anna Mikhailovna Delakhova. "IMPROVED SYSTEM OF ADAPTATION OF MOTOR TRANSPORT FOR OPERATION IN EXTREMELY LOW-TEMPERATURE AREAS". W International Conference "Aviamechanical engineering and transport" (AVENT 2018). Paris, France: Atlantis Press, 2018. http://dx.doi.org/10.2991/avent-18.2018.24.

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Kiseleva, G. K., N. I. Nenko, E. V. Ulyanovskaya, A. E. Mishko, A. V. Karavaeva i M. A. Sundyreva. "The adaptation mechanisms of apple varieties with different resistance to scab under high temperature stress". W IX Congress of society physiologists of plants of Russia "Plant physiology is the basis for creating plants of the future". Kazan University Press, 2019. http://dx.doi.org/10.26907/978-5-00130-204-9-2019-210.

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Krishnamurthy, Sivasubramaniam, Somnath Paul i Swarup Bhunia. "Adaptation to Temperature-Induced Delay Variations in Logic Circuits Using Low-Overhead Online Delay Calibration". W 8th International Symposium on Quality Electronic Design (ISQED'07). IEEE, 2007. http://dx.doi.org/10.1109/isqed.2007.29.

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Li, Zhi-Bin. "Application of Self Adaptation Fuzzy-PID Control for Main Steam Temperature Control System in Power Station". W 2007 International Conference on Machine Learning and Cybernetics. IEEE, 2007. http://dx.doi.org/10.1109/icmlc.2007.4370240.

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Raporty organizacyjne na temat "Temperature-adaptation"

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Heutel, Garth, Nolan Miller i David Molitor. Adaptation and the Mortality Effects of Temperature Across U.S. Climate Regions. Cambridge, MA: National Bureau of Economic Research, marzec 2017. http://dx.doi.org/10.3386/w23271.

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Gourio, François, i Charles Fries. Adaptation and the Cost of Rising Temperature for the U.S. economy. Federal Reserve Bank of Chicago, 2020. http://dx.doi.org/10.21033/wp-2020-08.

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Deschenes, Olivier. Temperature, Human Health, and Adaptation: A Review of the Empirical Literature. Cambridge, MA: National Bureau of Economic Research, sierpień 2012. http://dx.doi.org/10.3386/w18345.

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Belles, Randy, Willis Poore III, Nicholas R. Brown, George F. Flanagan, Mark Holbrook, Wayne Moe i Tanju Sofu. Proposed Adaptation of the Standard Review Plan NUREG-0800, Chapter 4 (Reactor) for Sodium-Cooled Fast Reactors and Modular High-Temperature Gas-Cooled Reactors. Office of Scientific and Technical Information (OSTI), marzec 2017. http://dx.doi.org/10.2172/1492189.

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Belles, Randy, Willis P. Poore, III, Nicholas R. Brown, George F. Flanagan, Mark Holbrook, Wayne Moe i Tanju Sofu. Proposed Advanced Reactor Adaptation of the Standard Review Plan NUREG-0800 Chapter 4 (Reactor) for Sodium-Cooled Fast Reactors and Modular High-Temperature Gas-Cooled Reactors. Office of Scientific and Technical Information (OSTI), marzec 2017. http://dx.doi.org/10.2172/1361360.

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Pradhananga, Saurav, Arthur Lutz, Archana Shrestha, Indira Kadel, Bikash Nepal i Santosh Nepal. Selection and downscaling of general circulation model datasets and extreme climate indices analysis - Manual. International Centre for Integrated Mountain Development (ICIMOD), 2020. http://dx.doi.org/10.53055/icimod.4.

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A supplement to the Climate Change Scenarios for Nepal report published by the Ministry of Forests and Environment for the National Adaptation Plan (NAP) Process, this manual provides detailed information about the processes through which the assessment highlighted in the report can be carried out. They include – selection of the general circulation/climate models (GCMs), downscaling of the GCM dataset, assessment of changes in precipitation and temperature, and assessment of change in climate extremes. The manual downscales climate datasets for the Koshi River basin, the Kabul River basin, and the Kailash Sacred Landscape to analyse future scenarios in these basins and the landscape.
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Venäläinen, Ari, Sanna Luhtala, Mikko Laapas, Otto Hyvärinen, Hilppa Gregow, Mikko Strahlendorff, Mikko Peltoniemi i in. Sää- ja ilmastotiedot sekä uudet palvelut auttavat metsäbiotaloutta sopeutumaan ilmastonmuutokseen. Finnish Meteorological Institute, styczeń 2021. http://dx.doi.org/10.35614/isbn.9789523361317.

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Climate change will increase weather induced risks to forests, and thus effective adaptation measures are needed. In Säätyö project funded by the Ministry of Agriculture and Forestry, we have summarized the data that facilitate adaptation measures, developed weather and climate services that benefit forestry, and mapped what kind of new weather and climate services are needed in forestry. In addition, we have recorded key further development needs to promote adaptation. The Säätyö project developed a service product describing the harvesting conditions of trees based on the soil moisture assessment. The output includes an analysis of the current situation and a 10-day forecast. In the project we also tested the usefulness of long forecasts beyond three months. The weather forecasting service is sidelined and supplemented by another co-operation project between the Finnish Meteorological Institute and Metsäteho called HarvesterSeasons (https://harvesterseasons.com/). The HarvesterSeasons service utilizes long-term forecasts of up to 6 months to assess terrain bearing conditions. A test version of a wind damage risk tool was developed in cooperation with the Department of Forest Sciences of the University of Eastern Finland and the Finnish Meteorological Institute. It can be used to calculate the wind speeds required in a forest area for wind damage (falling trees). It is currently only suitable for researcher use. In the Säätyö project the possibility of locating the most severe wind damage areas immediately after a storm was also tested. The method is based on the spatial interpolation of wind observations. The method was used to analyze storms that caused forest damages in the summer and fall of 2020. The produced maps were considered illustrative and useful to those responsible for compiling the situational picture. The accumulation of snow on tree branches, can be modeled using weather data such as rainfall, temperature, air humidity, and wind speed. In the Säätyö project, the snow damage risk assessment model was further developed in such a way that, in addition to the accumulated snow load amount, the characteristics of the stand and the variations in terrain height were also taken into account. According to the verification performed, the importance of abiotic factors increased under extreme snow load conditions (winter 2017-2018). In ordinary winters, the importance of biotic factors was emphasized. According to the comparison, the actual snow damage could be explained well with the tested model. In the interviews and workshop, the uses of information products, their benefits, the conditions for their introduction and development opportunities were mapped. According to the results, diverse uses and benefits of information products and services were seen. Information products would make it possible to develop proactive forest management, which would reduce the economic costs caused by wind and snow damages. A more up-to-date understanding of harvesting conditions, enabled by information products, would enhance the implementation of harvesting and harvesting operations and the management of timber stocks, as well as reduce terrain, trunk and root damage. According to the study, the introduction of information is particularly affected by the availability of timeliness. Although the interviewees were not currently willing to pay for the information products developed in the project, the interviews highlighted several suggestions for the development of information products, which could make it possible to commercialize them.
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Solaun, Kepa, Chiquita Resomardono, Katharina Hess, Helena Antich, Gerard Alleng i Adrián Flores. State of the Climate Report: Suriname: Summary for Policy Makers. Inter-American Development Bank, lipiec 2021. http://dx.doi.org/10.18235/0003415.

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Several factors contribute to Surinames particular vulnerability to the effects of climate change. It is dependent on fossil fuels, has forests liable to decay, fragile ecosystems, and its low-lying coastal area accounts for 87% of the population and most of the countrys economic activity. Many sectors are at risk of suffering losses and damage caused by gradual changes and extreme events related to climate change. For Suriname to develop sustainably, it should incorporate climate change and its effects into its decision-making process based on scientific- evidence. The State of the Climate Report analyzes Surinames historical climate (1990-2014) and provides climate projections for three time horizons (2020-2044, 2045-2069, 2070-2094) through two emissions scenarios (intermediate/ SSP2-4.5 and severe/ SSP5-8.5). The analysis focuses on changes in sea level, temperature, precipitation, relative humidity, and winds for the seven subnational locations of Paramaribo, Albina, Bigi Pan MUMA, Brokopondo, Kwamalasamutu, Tafelberg Natural Reserve, and Upper Tapanahony. The Report also analyzes climate risk for the countrys ten districts by examining the factors which increase their exposure and vulnerability on the four most important sectors affected by climate change: infrastructure, agriculture, water, and forestry, as well as examining the effects across the sectors. The State of the Climate provides essential inputs for Suriname to develop and update its climate change policies and targets. These policies and targets should serve as enablers for an adequate mainstreaming of climate change adaptation and resilience enhancement into day-to-day government operations.
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Solaun, Kepa, Gerard Alleng, Adrián Flores, Chiquita Resomardono, Katharina Hess i Helena Antich. State of the Climate Report: Suriname. Inter-American Development Bank, lipiec 2021. http://dx.doi.org/10.18235/0003398.

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Suriname is highly vulnerable to the effects of climate change. Among the factors that exacerbate its vulnerability are its dependency on fossil fuels, the degradation of important ecosystems (e.g., mangroves), and the fact that 87% of the population, and most of the countrys economic activity is located within the low-lying coastal area. Many sectors are at risk of suffering losses and damage caused by gradual changes and extreme events related to climate change. For Suriname to develop sustainably, it should incorporate climate change and its effects into its decision-making process based on scientific- evidence. The State of the Climate Report analyzes Surinames historical climate (1990-2014) and provides climate projections for three time horizons (2020-2044, 2045-2069, 2070-2094) through two emissions scenarios (intermediate/ SSP2-4.5 and severe/ SSP5-8.5). The analysis focuses on changes in sea level, temperature, precipitation, relative humidity, and winds for the seven subnational locations of Paramaribo, Albina, Bigi Pan MUMA, Brokopondo, Kwamalasamutu, Tafelberg Natural Reserve, and Upper Tapanahony. The Report also analyzes climate risk for the countrys ten districts by examining the factors which increase their exposure and vulnerability on the four most important sectors affected by climate change: infrastructure, agriculture, water, and forestry, as well as examining the effects across the sectors. The State of the Climate Report provides essential inputs for Suriname to develop and update its climate change policies and targets. These policies and targets should enable an adequate mainstreaming of climate change adaptation and resilience enhancementinto day-to-day government operations. It is expected that the Report will catalyze similar efforts in the future to improve decision-making by providing science-based evidence.
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McNulty, Steven, Sarah Wiener, Emrys Treasure, Jennifer Moore Myers, Hamid Farahani, Lisa Fouladbash, David Marshall i Rachel F. Steele. Southeast Regional Climate Hub Assessment of Climate Change Vulnerability and Adaptation and Mitigation Strategies. United States. Department of Agriculture, styczeń 2015. http://dx.doi.org/10.32747/2015.7279978.ch.

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Climate-related variability in rainfall, temperature, and extreme weather (e.g., drought, flood, unseasonal frost) pose significant challenges to working land (i.e., range, forest, and agricultural) managers across the southeastern United States. This document outlines the type of risks that southeastern agriculture and forestry currently face and, in some cases, options to address these risks. Finally, this document looks forward to providing direction on the priority needs of Southeast working land managers and an outline of how the USDA Southeast Climate Hub will address those needs.
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