03534nam 22007212 450 991082008800332120151005020622.01-107-21256-11-139-09733-41-283-30697-297866133069751-139-10314-81-139-00373-91-139-10068-81-139-10134-X1-139-09865-91-139-09932-9(CKB)2550000000056831(EBL)803207(OCoLC)769342151(SSID)ssj0000536250(PQKBManifestationID)11324334(PQKBTitleCode)TC0000536250(PQKBWorkID)10552314(PQKB)11088552(UkCbUP)CR9781139003735(MiAaPQ)EBC803207(Au-PeEL)EBL803207(CaPaEBR)ebr10502680(CaONFJC)MIL330697(OCoLC)767734368(EXLCZ)99255000000005683120110124d2011|||| uy| 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierEnding dirty energy policy prelude to climate change /Joseph P. Tomain[electronic resource]Cambridge :Cambridge University Press,2011.1 online resource (x, 308 pages) digital, PDF file(s)Title from publisher's bibliographic system (viewed on 05 Oct 2015).0-521-12785-8 0-521-11109-9 Includes bibliographical references and index.A regulatory history of dirty energy law and policy -- Protectionist assumptions -- The next generation is now -- Consensus energy policy -- Fossil fuel future -- Electricity future -- Venture regulation -- Smart energy politics -- Conclusion -- Strategies for the energy future.Climate change presents the United States, and the world, with regulatory problems of a magnitude, complexity and scope unseen before. The United States, however, particularly after the mid-term elections of 2010, lacks the political will necessary to aggressively address climate change. Most current books focus on climate change. Ending Dirty Energy Policy argues that the US will not adequately address climate change until it transforms its fossil fuel energy policy. Yet there are signs that the country will support the transformation of its century-old energy policy from one that is dependent on fossil fuels to a low-carbon energy portfolio. A transformative energy policy that favors energy efficiency and renewable resources can occur only after the US has abandoned the traditional fossil fuel energy policy, has redesigned regulatory systems to open new markets and promoted competition among new energy providers, and has stimulated private-sector commercial and venture capital investment in energy innovations that can be brought to commercial scale and marketability.Energy policyUnited StatesFossil fuelsUnited StatesClimatic changesRenewable energy sourcesEnergy policyFossil fuelsClimatic changes.Renewable energy sources.333.790973Tomain Joseph P.1948-1178048UkCbUPUkCbUPBOOK9910820088003321Ending dirty energy policy4017248UNINA04670nam 2201273z- 450 991055729140332120210501(CKB)5400000000041125(oapen)https://directory.doabooks.org/handle/20.500.12854/69103(oapen)doab69103(EXLCZ)99540000000004112520202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierBiological Activity and Applications of Natural CompoundsBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 online resource (206 p.)3-03936-617-3 3-03936-618-1 Nature represents an amazing source of inspiration, since it produces a great diversity of natural compounds selected by evolution, which exhibit multiple biological activities and applications. A large and very active research field is dedicated to identifying biosynthesized compounds, to improve/develop new methodologies, to produce/reuse natural compounds, and to assess their potential for pharmaceutical, cosmetic and food industries, among others, and additionally, to understand their mechanism of action. This book is dedicated to presenting the most recent results on the development of natural compounds' applications. Ten original research works, organized by applications, and two reviews are included. Each of them contributes to the knowledge advance, insofar as they present new applications for known products, new methodologies to obtain new products, or the evaluation of a given application, with the applications related to health promotion being the most frequently considered. These works are significant contributions and reinforce the dynamic field of natural products' applications.Medicinebicssc5-pentylcyclohexa-1,3-dienealantolactonealdol condensationalmondamino acid metabolismanti-aginganti-inflammatoryantibacterial activityanticanceranticholinesteraseantidiabeticantidiabetic activityantimicrobialantioxidantantitumorapoptosisarglabinAspergillus nigerAsteraceaebiological activitybyproductsCaenorhabditis elegansCandidaCandida albicanscardioprotectivecarvacrolcelastroloidschalconeschlorogenic acidcolorectal cancerCryptococcus neoformanscytotoxicdesign of experimentessential oilsflavanonesflavonoidfungistatic effectGC/MSHelianthus annuusHelianthus strumosushoneyin vivo studyinhibition of dimorphismlongevityMaytenusmetabolomics datanatural compoundsNHDF cellsoleraconeostholeoxidative stressparthenolidePenicillium digitatumphenolic acidsphenolic compoundspimenta d'águaPortulaca oleracea L.Prangos pabularia Lindl.propolisPTP-1Brosemaryrosmarinic acidSalviae miltiorrhizae radixSARsemisynthesissesquiterpene lactonesstructure-activity relationshipthapsigargintherapeutic applicationstotal synthesisultrasound-assisted extractionvolatile oilwound-healing activityα-pineneMedicineSeca Ana M. Ledt1292427Moujir Laila MoujiredtSharopov FarukhedtSeca Ana M. LothMoujir Laila MoujirothSharopov FarukhothBOOK9910557291403321Biological Activity and Applications of Natural Compounds3036303UNINA