05392nam 22006734a 450 991014569760332120170815114830.01-281-32012-997866113201260-470-98495-30-470-98849-50-470-99410-X(CKB)1000000000414626(EBL)351154(OCoLC)437218448(SSID)ssj0000161302(PQKBManifestationID)11151979(PQKBTitleCode)TC0000161302(PQKBWorkID)10191009(PQKB)10627178(MiAaPQ)EBC351154(EXLCZ)99100000000041462620050318d2005 uy 0engur|n|---|||||txtccrGene flow from GM plants[electronic resource] /edited by Guy M. Poppy and Michael J. WilkinsonOxford ;Ames, Iowa Blackwell Pub.20051 online resource (258 p.)Biological sciences seriesDescription based upon print version of record.1-4051-2237-4 Includes bibliographical references and index.Gene Flow from GM Plants; Contents; List of Contributors; Preface; 1 Where science fits into the GM debate; 1.1 Background; 1.2 Regulation; 1.3 Stimulus for research; 1.4 Vigorous campaigning; 1.5 The GM Nation Public Debate; 1.6 Gene flow issues raised in the public debate; 1.6.1 GM is unnatural; 1.6.2 Genetic contamination; 1.6.3 GM and organic agriculture cannot coexist; 1.6.4 GM crops will damage the environment; 1.7 Findings of the debate; 1.8 Discussion; 1.8.1 GM crops have become 'a lightning rod' for a range of concerns1.8.2 Difficulty of holding a rational discussion of GM crops in context1.8.2.1 Method not mission; 1.8.2.2 The FSEs raised wider issues; 1.8.3 Broader agricultural issues; 1.8.4 Political context; References; 2 Crop biotechnology - the state of play; 2.1 Introduction; 2.2 A need for better tools in crop production systems; 2.2.1 Crop production and sustainability; 2.3 The current state of GM crops; 2.3.1 Herbicide tolerance; 2.3.2 Insect protection; 2.3.3 Virus resistance in plants; 2.4 Future developments; 2.4.1 Expansion of Bt and HT; 2.4.2 Other pest resistance traits2.4.3 Tolerance to abiotic stress2.4.4 Output traits; 2.4.5 Other GM plants; 2.4.6 Gene flow containment; 2.5 Summary; Acknowledgements; References; 3 Pollen dispersal vectored by wind or insects; 3.1 Introduction; 3.1.1 The fascination with pollination; 3.1.2 The pollination of crop plants; 3.1.3 Pollen dispersal, gene flow and GM crops; 3.2 Evolutionary and ecological aspects of pollination biology; 3.2.1 Evolutionary aspects of wind-mediated pollination; 3.2.2 Adaptations for wind pollination; 3.2.3 Airborne pollen recording for allergy sufferers3.2.4 Evolutionary and ecological aspects of entomophily3.2.5 Adaptations for entomophily; 3.3 Managing insect pollination for crop production; 3.3.1 Crops benefiting from wild and managed pollinators; 3.3.2 The use of managed pollinators; 3.4 Experiments and observations on vectors in oilseed rape, beet and maize; 3.4.1 Uncertainties on the relative importance of different vectors in oilseed rape; 3.4.2 Oilseed rape cross-pollination: observations; 3.4.3 Oilseed rape cross pollination: experimental data; 3.4.4 Other crops; 3.5 Processes and patterns with wind-mediated pollination3.5.1 Deposition, turbulence and impaction3.5.2 Long-distance dispersal; 3.5.3 Local barriers, directionality and edge effects; 3.6 Processes and patterns with insect-mediated pollination; 3.6.1 Functional groupings of pollinators; 3.6.2 Common processes: local dispersal; 3.6.3 Processes and patterns for social insects; 3.6.4 Edge effects in recipient patches; 3.6.5 Patchiness and pollinator behaviour; 3.6.6 Influence of landscape patterns on pollen dispersal; 3.7 Modelling pollen dispersal based on vectors; 3.7.1 General models; 3.7.2 Modelling elements of bee behaviour3.8 Lessons for the management of gene flow from studies on vectorsGene flow is not unique to genetically modified (GM) crops, but the possibility of the spread of transgenic DNA to wild and domesticated relatives raises a new set of issues for scientists and policymakers to consider. Unfortunately, we are still too often unable to quantify the risks of ecological damage associated with gene flow. This is due partly to the huge breadth of knowledge required to assemble a comprehensive risk assessment. For example, many scientists active in research on the mechanics of gene flow nevertheless lack a deep understanding of what is required to identify, characteriBiological sciences series (Oxford, England)Transgenic plantsTransgenic plantsRisk assessmentElectronic books.Transgenic plants.Transgenic plantsRisk assessment.621.5233631.523Poppy Guy M312642Wilkinson Michael J312643MiAaPQMiAaPQMiAaPQBOOK9910145697603321Gene flow from GM plants2134428UNINA01774nam a2200361 i 450099100079721970753620250424111722.0020627s1997 it 000 0 ita 880205272788020544798802053855b10130214-39ule_instBibl. Dip.le Aggr. Scienze Economia - Sez. Settore Economicoita345.450502638Commento al codice di procedura penale /coordinato da Mario ChiavarioTorino :UTETv. ;25 cmSpeciali di LpTerzo aggiornamento : (al 1. aprile 1997). - [1998].- viii, 733 p.Quarto aggiornamento : (al 15 marzo 1998). - [1998].- 455 p. + 1 fasc.Leggi collegate. 2.: Lanormativa ordinamentale. - [1999]. -viii, 458 p.Leggi collegate. 1.: Ilprocesso minorile. - 1994.- viii, 546 p.Codice di procedura penaleItaliaChiavario, Marioauthorhttp://id.loc.gov/vocabulary/relators/aut225256.b1013021417-02-1727-06-02991000797219707536LE025 ECO 345 SPE01.01V. 512025000097513le025pE67.10-no01010.i1400864615-02-05LE025 ECO 345 SPE01.01V. 712025000071438le025pE0.00-no00000.i1257228726-09-03LE025 ECO 345 SPE01.01V. 812025000062351le025pE0.00-n-01010.i1257227526-09-03LE025 ECO 345 SPE01.01V. 912025000074125le025pE0.00-no00000.i1257231729-09-03Commento al codice di procedura penale1444704UNISALENTOle02501-01-01ma-itait0100975nam0 22002531i 450 UON0052922520250827123623.57020250827d1975 |0itac50 baitaIT|||| |||||Ma l'amore norealismo, formalismo, propaganda e telefoni bianchi nel cinema italiano di regime, (1930-1943)Francesco SavioMilanoSonzogno1975XXV, 411 p.ill.26 cmFilmItalia1930-1943UONC105041FIITMilanoUONL000005SavioFrancescoUONV208495215802SonzognoUONV253704650ITSOL20250829RICASIBA - SISTEMA BIBLIOTECARIO DI ATENEOUONSIUON00529225SIBA - SISTEMA BIBLIOTECARIO DI ATENEOSI 0173 SI LO 414 5 BuonoMa l'amore no954009UNIOR