01184nam0-2200301 --450 991074589880332120231013093951.020231013d1975----kmuy0itay5050 bagrcengIT 001yyPapyri in the Princeton University collectionsRist. anastMilanoCisalpino-Goliardica19753 v.25Ripr. facs. dell'ed.: Baltimore : the Johns Hopkins press ; [poi] Princeton : Princeton University press, 1931-1942vol. 1 / edited with notes by Allan Chester Johnson and by Henry Bartlett van Hoesenvol. 2 / edited with notes by Edmund Harris Kase, Jrvol. 3 / edited with notes by Allan Chester Johnson and Sidney Pullman Goodrich091Princeton university library070480295ITUNINAREICATUNIMARCBK9910745898803321P2B 140 PPRINC 01 (1)445FLFBCP2B 140 PPRINC 01 (2)445FLFBCP2B 140 PPRINC 01 (3)445FLFBCFLFBCPapyri in the Princeton University collections948576UNINA04474nam 2200733 a 450 991095632320332120200520144314.09786612255977978128225597512822559759780299224837029922483X(CKB)1000000000477224(SSID)ssj0000242108(PQKBManifestationID)11200131(PQKBTitleCode)TC0000242108(PQKBWorkID)10301470(PQKB)10410173(MiAaPQ)EBC3444716(OCoLC)173257080(MdBmJHUP)muse12279(Au-PeEL)EBL3444716(CaPaEBR)ebr10217071(CaONFJC)MIL225597(Perlego)4437481(EXLCZ)99100000000047722420070413d2007 ub 0engurcn|||||||||txtccrScience and the university /edited by Paula E. Stephan and Ronald G. Ehrenberg1st ed.Madison, Wis. University of Wisconsin Pressc2007x, 304 p. illScience and technology in societyBibliographic Level Mode of Issuance: Monograph9780299224806 0299224805 Includes bibliographical references (p. 265-282) and index.Who bears the growing cost of science at universities? / Ronald G. Ehrenberg, Michael J. Rizzo and George H. Jakubson -- How does the government (want to) fund science?: politics, lobbying and academic earmarks / John M. de Figueiredo and Brian S. Silverman -- University science research funding: privatizing policy and practice / Risa L. Lieberwitz -- Patterns of research and licensing activity of science and engineering faculty / Jerry G. Thursby and Marie C. Thursby -- Commercialization and the scientific research process: the example of plant breeding / W. Ronnie Coffman, William H. Lesser and Susan R. McCouch -- The importance of foreign Ph.D. students to U.S. science / Grant G. Black and Paula E. Stephan -- Do foreign students crowd out native students from graduate programs? / George J. Borjas -- Foreign scholars in U.S. science: contributions and costs / Paula E. Stephan and Sharon G. Levin -- The changing composition of American citizen PhDs / Jeffrey A. Groen and Michael J. Rizzo -- Where do new US-trained science engineering PhDs come from? / Richard B. Freeman, Emily Jin, and Chia-Yu Shen -- Global research competition affects U.S. output / Diana M. Hicks -- The workforce for biomedical research-- who will do the work? / Susan A. Gerbi and Howard Garrison.Science and the University investigates the tremendous changes that have taken place in university research over the past several decades, gauging the current state of research in higher education and examining issues and challenges crucial to its future. Scientific research increasingly dominates the aims and agendas of many American universities, and this proliferation-and changes in the way research is conducted-has given rise to important questions about the interrelations of higher education, funding for scientific research, and government policy. The cost of doing science, the commercialization of university research, the changing composition and number of Ph.D. students, the effect of scientific research on other university programs-these are just a few of the many issues explored in this volume from the vantage points of scholars in such diverse fields as economics, biochemistry, genetics, and labor studies. Science and technology in society.ScienceStudy and teaching (Higher)United StatesResearchUnited StatesFinanceGraduate students in scienceUnited StatesScience studentsUnited StatesUniversities and collegesUnited StatesScienceStudy and teaching (Higher)ResearchFinance.Graduate students in scienceScience studentsUniversities and colleges507/.073Stephan Paula E102362Ehrenberg Ronald G89045MiAaPQMiAaPQMiAaPQBOOK9910956323203321Science and the university4369226UNINA04520nam 22006975 450 991102235240332120250830130204.03-031-98048-410.1007/978-3-031-98048-0(CKB)40851431600041(MiAaPQ)EBC32275457(Au-PeEL)EBL32275457(DE-He213)978-3-031-98048-0(EXLCZ)994085143160004120250830d2025 u| 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierRevealing Ecosystem Services Through Geospatial Technologies Beyond the Surface /edited by Onisimo Mutanga, Prem Chandra Pandey, Sandipan Das, Uday Chatterjee1st ed. 2025.Cham :Springer Nature Switzerland :Imprint: Springer,2025.1 online resource (507 pages)Springer Remote Sensing/Photogrammetry,2198-073X3-031-98047-6 Introduction -- Terrestrial Ecosystem services -- Wetlands & Aquatic Ecosystem services -- Threats to Ecosystem services -- Challenges and opportunities to sustainable future.This book covers the quantification of forests, grasslands, and woodlands ecosystem services from the supply side (e.g., regulatory and provisioning services) to the demand side, including human cultural needs. The Millennium Ecosystem Assessment (MA, 2005) defines ecosystem services as simply the benefits that are derived from ecosystems for human well-being (Board 2005). The report has documented that ecosystems have contributed more than 50% of the world's GDP. However, as a result of climate change and anthropogenic impacts, about 60% of the world's ecosystem services have been degraded. This significant reduction of services has serious consequences on food production, climate regulation, and net primary production, among other services which directly affect human well-being. In order to appreciate the benefits of various ecosystems to humanity and monitor their degradation, a systematic quantification of ecosystem services and their change in both time and space is critical. In particular, there is a need to characterize the ecological infrastructures, processes, and ecosystem functions that underpin the ecosystem services in ways that can be evaluated and tracked (Potschin and Haines-Young 2016). In addition, various intervention measures to restore degraded ecosystems require constant and accurate measurement of the ecosystem characteristics in order to assess the benefits of ecological restoration. Vegetation in particular provides a number of provisioning (forage production, food), regulatory (climate, temperature), supporting (primary production, nutrient cycling), and cultural (educational, recreation) ecosystem services as well as biodiversity maintenance (Masenyama et al. 2022). Remote sensing data contributes significantly to mapping, modeling, and quantitative valuation of the ecosystem services in a spatially explicit manner. It provides an opportunity to use standard protocols at various spatial scales as well as wall-to-wall mapping of phenomena through time, which is critical for monitoring on a continuous basis.Springer Remote Sensing/Photogrammetry,2198-073XEnvironmental geographyGeographic information systemsEnvironmental monitoringGeographyPhysical geographyIntegrated GeographyGeographical Information SystemEnvironmental MonitoringRegional GeographyPhysical GeographyEnvironmental geography.Geographic information systems.Environmental monitoring.Geography.Physical geography.Integrated Geography.Geographical Information System.Environmental Monitoring.Regional Geography.Physical Geography.910Mutanga Onisimo1826545Pandey Prem Chandra1846957Das Sandipan1588195Chatterjee Uday1588192MiAaPQMiAaPQMiAaPQBOOK9911022352403321Revealing Ecosystem Services Through Geospatial Technologies4431907UNINA