01320nam a2200325 i 450099100095211970753620020507180457.0930908s1987 at ||| | eng 3700111029 (set)b10780415-39ule_instLE01304794ExLDip.to Matematicaeng510AMS 00A10 (1985)Radon, Johann535578Gesammelte Abhandlungen = Collected works /Johann Radon ; Hrsg. von d. Osterr. Akad. d. Wiss. unter Mitw. von Peter Manfred Gruber ... [et al.]Wien :Osterr. Akad. der Wiss. ; Basel : Birkhauser,19872 v. ;24 cm.Mathematics-collected worksGruber, Peter ManfredHlawka, EdmundSchnetterer, L.Collected works.b1078041521-09-0628-06-02991000952119707536LE013 01A75 RAD11 V.I (1987)V. 112013000005683le013-E0.00-l- 00000.i1087985728-06-02LE013 01A75 RAD11 V.II (1987)V. 212013000005690le013-E0.00-l- 00000.i1087986928-06-02Gesammelte Abhandlungen = Collected works921880UNISALENTOle01301-01-93ma -engat 0202671oam 2200649 450 991070971320332120190116155337.0(CKB)5470000002473118(OCoLC)950267390(OCoLC)889232497(OCoLC)1048302643(OCoLC)1048663768(OCoLC)1050852676(OCoLC)1057289002(EXLCZ)99547000000247311820160522j199410 ua 0engurbn|||||||||txtrdacontentcrdamediacrrdacarrierApplication of a two-dimensional model of hydrodynamics to San Timoteo Creek flood-control channel, California /by Richard L. Stockstill ; prepared for U.S. Army Engineer District, Los AngelesVicksburg, MS :U.S. Army Corps of Engineers, Waterways Experiment Station,October 1994.1 online resource (51 unnumbered pages) illustrations, mapsMiscellaneous paper / US Army Corps of Engineers, Waterways Experiment Station ;HL-94-7"October 1994.""The study was conducted in the Hydraulics Laboratory of the U.S. Army Engineer Waterways Experiment Station"--Preface."Performing organization: U.S. Army Engineer Waterways Experiment Station"--Report documentation page.Includes bibliographical references.River engineeringCaliforniaSan Timoteo WashStream channelizationCaliforniaSan Timoteo CanyonFlood controlCaliforniaSan Bernardino CountyFlood controlCaliforniaRiverside CountyFlood controlfastRiver engineeringfastStream channelizationfastSan Timoteo Wash (Calif.)ChannelizationCaliforniaRiverside CountyfastCaliforniaSan Bernardino CountyfastRiver engineeringStream channelizationFlood controlFlood controlFlood control.River engineering.Stream channelization.Stockstill Richard L.1409223U.S. Army Engineer Waterways Experiment Station,Hydraulics Laboratory (U.S.)OCLCEOCLCEAERDCOCLCFOCLCQOCLGPOMERUCGPOBOOK9910709713203321Application of a two-dimensional model of hydrodynamics to San Timoteo Creek flood-control channel, California3495077UNINA04524nam 2200853z- 450 991055710500332120210501(CKB)5400000000040997(oapen)https://directory.doabooks.org/handle/20.500.12854/69049(oapen)doab69049(EXLCZ)99540000000004099720202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierClimate Change in Complex SystemsEffects, Adaptations, and Policy Considerations for Agriculture and EcosystemsBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 online resource (146 p.)3-03936-942-3 3-03936-943-1 Climate change is altering agricultural production and ecosystems around the world. Future projections indicate that additional change is expected in the coming decades, forcing individuals and communities to respond and adapt. Frequently, agriculture and ecosystems are seen as separate entities, resulting in entity-specific solutions in response to threats. Anthropogenic climate change simultaneously stresses both agriculture and ecosystems (AE) along with their interactions, and current research efforts examining climate change effects and possible adaptations fail to integrate agriculture and ecosystems. Research has quantified many AE impacts of climate change, and yet greater impacts are anticipated as climate change proceeds. Thus, an understanding of the implications for changing AE systems is crucial. AE function, health and productivity depend heavily on climatic characteristics. Failure to jointly consider these systems and the associated externalities may underestimate the impacts of climate change or cause adaptation implementation surprises such as the worsening of the adaptation status of some groups or ecosystems. This collection of papers draws on specific studies to explain why ecosystem and agriculture adaptation requires an integrated analytical approach. A synthesis of current literature is used, as well as examples from around the world to help explain concepts and current challenges. Researchers are encouraged to adopt integrated modeling as a means of avoiding implementation challenges and surprises when formulating and implementing adaptations. Failure to incorporate the overlapping effects of agriculture and ecosystems could lead to maladaptation and greater long-term damage under climate change. The papers in this volume address several aspects of these challenges.Climate Change in Complex Systems Biology, life sciencesbicsscResearch and information: generalbicsscTechnology, Engineering, Agriculture, Industrial processesbicsscadaptationadaptation failureadaptation planningagriculturecarbon dioxideclimate changecoastal communitycontagiondrought frequencyecological implicationseconomic impactseconomic interestsecosystem spilloversecosystemsenvironmental Kuznets curvesexternalitiesforest pestsKorean oak wiltland conversionland degradationlivestock productionlocal governmentn/apolicyrepresentative concentration pathwaysresponsesrisk perceptionSouth Africasustainable development goalstransformationvulnerabilitywater useBiology, life sciencesResearch and information: generalTechnology, Engineering, Agriculture, Industrial processesMcCarl Bruce Aedt1313307Thayer Anastasia WedtLacher ThomasedtVargas AuroraedtMcCarl Bruce AothThayer Anastasia WothLacher ThomasothVargas AuroraothBOOK9910557105003321Climate Change in Complex Systems3031263UNINA