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200 10$aSatellite Remote Sensing in Hydrological Data Assimilation /$fby Mehdi Khaki
205   $a1st ed. 2020.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2020.
215   $a1 online resource (XV, 290 p. 101 illus., 88 illus. in color.) 
311   $a3-030-37374-6 
327   $aPart 1: Hydrological Data Assimilation -- Chapter 1 - Introduction -- Chapter 2 - Data assimilation and remote sensing data -- Part 2: Model-Data -- Chapter 3 - Hydrologic model -- Chapter 4 - Remote sensing for assimilation -- Part 3 : Data Assimilation Filters -- Chapter 5 - Sequential Data Assimilation Techniques for Data Assimilation -- Part 4 : GRACE Data Assimilation -- Chapter 6 - Ef?cient Assimilation of GRACE TWS into Hydrological Models -- Part 5 : Water Budget Constraint -- Chapter 7 - Constrained Data Assimilation Filtering -- Chapter 8 - Unsupervised Constraint for Hydrologic Data Assimilation -- Part 6 : Data-driven Approach -- Chapter 9 - Non-parametric Hydrologic Data Assimilation -- Chapter 10 - Parametric and Non-parametric Data Assimilation Frameworks -- Part 7 Hydrologic Applications -- Chapter 11- Groundwater Depletion over Iran -- Chapter 12 - Water Storage Variations over Bangladesh -- Chapter 13 - Multi-mission Satellite Data Assimilation over South America. .
330   $aThis book presents the fundamentals of data assimilation and reviews the application of satellite remote sensing in hydrological data assimilation. Although hydrological models are valuable tools to monitor and understand global and regional water cycles, they are subject to various sources of errors. Satellite remote sensing data provides a great opportunity to improve the performance of models through data assimilation.
606   $aPhysical geography
606   $aHydrology
606   $aRemote sensing
606   $aComputer science$xMathematics
606   $aStatistics
606   $aEarth System Sciences$3https://scigraph.springernature.com/ontologies/product-market-codes/G35000
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606   $aRemote Sensing/Photogrammetry$3https://scigraph.springernature.com/ontologies/product-market-codes/J13010
606   $aComputational Mathematics and Numerical Analysis$3https://scigraph.springernature.com/ontologies/product-market-codes/M1400X
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615  0$aPhysical geography.
615  0$aHydrology.
615  0$aRemote sensing.
615  0$aComputer science$xMathematics.
615  0$aStatistics.
615 14$aEarth System Sciences.
615 24$aHydrology/Water Resources.
615 24$aRemote Sensing/Photogrammetry.
615 24$aComputational Mathematics and Numerical Analysis.
615 24$aStatistics for Engineering, Physics, Computer Science, Chemistry and Earth Sciences.
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135   $aurmn|---annan
181   $ctxt$2rdacontent
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200 00$aAutophagy in Tissue Injury and Homeostasis
210   $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2020
215   $a1 online resource (322 p.)
311 08$a3-03943-781-X 
311 08$a3-03943-782-8 
330   $aAutophagy ("auto-digestion"), a lysosome-dependent process, degrades and turns over damaged or senescent organelles and proteins. Autophagy is a highly regulated process that impacts several vital cellular responses, including inflammation, cell death, energy metabolism, and homeostasis of organelles (mitochondria and others). Although the role of autophagy in the maintenance of tissue homeostasis is well documented, its role during tissue injury and regeneration is still emerging. In this Special Issue on "Autophagy in Tissue Injury and Homeostasis", we focus on the roles of autophagy in systemic, specific tissue (organs/cells) injury or organ failure associated with sepsis, inflammation, metabolic disorder, toxic chemicals, ischemia-reperfusion injury, hypoxic oxidative stress, tissue fibrosis, trauma, and nutrient starvation. The knowledge gained from the identification and characterization of new molecular mechanisms will shed light on biomedical applications for tissue protection through the modulation of autophagy.
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