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035   $a(OCoLC)979598258
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035   $a(DE-B1597)9783839430385
035   $a(transcript Verlag)9783839430385
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100   $a20220221d2015      uy         0
101 0 $ager
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aVorausschauendes Denken$ePhilosophie und Zukunftsforschung jenseits von Statistik und Kalku?l$fBruno Gransche
205   $a1st ed.
210   $aBielefeld$ctranscript Verlag$d2015
215   $a1 online resource (457 p.)
225 0 $aEdition panta rei
300   $aDescription based upon print version of record.
311   $a3-8376-3038-2 
320   $aIncludes bibliographical references (p. 409-453)
327   $aFrontmatter    1  Editorial    2  Inhalt    5  Vorwort    7  Einleitung    11  1. Zukunftsforschung    29  2. Gegenwartsdiagnose    111  3. Antizipation und Unfall    191  4. Narrative Hermeneutik    241  5. Akzidenz    313  Schluss    377  Anhang: Zukunftsforschung    389  Verzeichnis der Abku?rzungen    407  Literatur    409  Backmatter    454
330   $aDer soziotechnische Wandel bringt neue Pha?nomene des Zufalls hervor, die sich den u?blichen Strategien des Umgangs mit Risiken und Unsicherheit entziehen. Diese Akzidenzpha?nomene sind prinzipiell unvorhersehbar und in ihrer komplexen Effektgesamtheit jenseits von Kalkulation und Antizipation. Eine allgemeine Verzuku?nftigung unseres Weltbezuges mit spezifischen weitreichenden Problemen ist die Folge und la?sst klassische Agenturen des Risikomanagements und der Unsicherheitsbewa?ltigung an ihre Leistungsgrenzen stoßen.  Bruno Gransche zeigt, dass Philosophie und Zukunftsforschung gemeinsam großes Potenzial aufweisen, hier zu helfen.
410  0$aEdition panta rhei.
606   $aPhilosophie; Zukunftsforschung; Zukunft; Akzidenz; Technik; Resilienz; Narration; Zufall; Risikomanagement; Hochtechnologie; Antizipation; Wissenschaft; Wissenschaftsphilosophie; Technikphilosophie; Erkenntnistheorie; Wissenschaftssoziologie; Philosophy; Foresight; Future; Accident; Technology; Resilience; Coincidence; Risk Management; High-technology; Anticipation; Science; Philosophy of Science; Philosophy of Technology; Epistemology; Sociology of Science;
610   $aAccident.
610   $aAnticipation.
610   $aCoincidence.
610   $aEpistemology.
610   $aForesight.
610   $aFuture.
610   $aHigh-technology.
610   $aNarration.
610   $aPhilosophy of Science.
610   $aPhilosophy of Technology.
610   $aResilience.
610   $aRisk Management.
610   $aScience.
610   $aSociology of Science.
610   $aTechnology.
615  4$aPhilosophie; Zukunftsforschung; Zukunft; Akzidenz; Technik; Resilienz; Narration; Zufall; Risikomanagement; Hochtechnologie; Antizipation; Wissenschaft; Wissenschaftsphilosophie; Technikphilosophie; Erkenntnistheorie; Wissenschaftssoziologie; Philosophy; Foresight; Future; Accident; Technology; Resilience; Coincidence; Risk Management; High-technology; Anticipation; Science; Philosophy of Science; Philosophy of Technology; Epistemology; Sociology of Science;
676   $a300.1
700   $aGransche$b Bruno$4aut$01012548
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801  1$bDE-B1597
906   $aBOOK
912   $a996234842703316
996   $aVorausschauendes Denken$92351493
997   $aUNISA

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101 0 $aeng
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181   $ctxt$2rdacontent
182   $cc$2rdamedia
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200 00$aEvolution of Gene Regulatory Networks in Plant Development
210   $cFrontiers Media SA$d2018
215   $a1 online resource (252 p.)
225 1 $aFrontiers Research Topics
311 08$a2-88945-407-X 
330   $aDuring their life cycle plants undergo a wide variety of morphological and developmental changes. Impinging these developmental processes there is a layer of gene, protein and metabolic networks that are responsible for the initiation of the correct developmental transitions at the right time of the year to ensure plant life success. New omic technologies are allowing the acquisition of massive amount of data to develop holistic and integrative analysis to understand complex processes. Among them, Microarray, Next-generation Sequencing (NGS) and Proteomics are providing enormous amount of data from different plant species and developmental stages, thus allowing the analysis of gene networks globally. Besides, the comparison of molecular networks from different species is providing information on their evolutionary history, shedding light on the origin of many key genes/proteins. Moreover, developmental processes are not only genetically programed but are also affected by internal and external signals. Metabolism, light, hormone action, temperature, biotic and abiotic stresses, etc. have a deep effect on developmental programs. The interface and interplay between these internal and external circuits with developmental programs can be unraveled through the integration of systematic experimentation with the computational analysis of the generated omics data (Molecular Systems Biology). This Research Topic intends to deepen in the different plant developmental pathways and how the corresponding gene networks evolved from a Molecular Systems Biology perspective. Global approaches for photoperiod, circadian clock and hormone regulated processes; pattern formation, phase-transitions, organ development, etc. will provide new insights on how plant complexity was built during evolution. Understanding the interface and interplay between different regulatory networks will also provide fundamental information on plant biology and focus on those traits that may be important for next-generation agriculture.
606   $aBotany & plant sciences$2bicssc
610   $aEvolution
610   $aGene Regulatory Networks
610   $aMolecular Systems Biology
610   $aOmics
610   $aPlant Development
615  7$aBotany & plant sciences
700   $aJose M. Romero$4auth$01318746
702   $aFederico Valverde$4auth
702   $aAndrew Groover$4auth
906   $aBOOK
912   $a9910346757003321
996   $aEvolution of Gene Regulatory Networks in Plant Development$93033512
997   $aUNINA