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81.
82.
Formalised and Non-Formalised Methods in Resource Management—Knowledge and Social Learning in Participatory Processes: An Introduction 总被引:1,自引:1,他引:0
Jens Newig Helmut Haberl Claudia Pahl-Wostl Dale S. Rothman 《Systemic Practice and Action Research》2008,21(6):381-387
The participation of non-state actors in public decision-making and transdisciplinary research is increasingly regarded as
an effective means to cope with growing uncertainties and complexities in human–nature interactions. The management of natural
resources is expected to profit from a broader knowledge base and processes of social learning, thus allowing for potentially
more informed and creative decision-making. Communication is a key element of transmitting knowledge and fostering social
learning. This article introduces the special issue, which assembles contributions that discuss different methods, instruments,
tools, and models that have been developed in order to facilitate the transmission of information as well its selection and
aggregation. Each of the contributions is briefly reviewed. The approaches discussed here and in the individual papers aim
to foster learning in participatory processes. We argue that a key aspect is the degree to which methods are formalised. Formalisation
refers to the extent to which information is channelled in a certain way, leaving more or less scope for open communication.
Depending on the goals and context, more or less formalised methods can be employed. We conclude by highlighting the context-dependency
of participatory processes in natural resource management and indicate some directions for future research.
相似文献
Jens NewigEmail: |
83.
Schormair B Kemlink D Roeske D Eckstein G Xiong L Lichtner P Ripke S Trenkwalder C Zimprich A Stiasny-Kolster K Oertel W Bachmann CG Paulus W Högl B Frauscher B Gschliesser V Poewe W Peglau I Vodicka P Vávrová J Sonka K Nevsimalova S Montplaisir J Turecki G Rouleau G Gieger C Illig T Wichmann HE Holsboer F Müller-Myhsok B Meitinger T Winkelmann J 《Nature genetics》2008,40(8):946-948
We identified association of restless legs syndrome (RLS) with PTPRD at 9p23-24 in 2,458 affected individuals and 4,749 controls from Germany, Austria, Czechia and Canada. Two independent SNPs in the 5' UTR of splice variants expressed predominantly in the central nervous system showed highly significant P values (rs4626664, P(nominal/lambda corrected) = 5.91 x 10(-10), odds ratio (OR) = 1.44; rs1975197, P(nominal/lambda corrected) = 5.81 x 10(-9), OR = 1.31). This work identifies PTPRD as the fourth genome-wide significant locus for RLS. 相似文献
84.
Genome-wide association study of restless legs syndrome identifies common variants in three genomic regions 总被引:10,自引:0,他引:10
Winkelmann J Schormair B Lichtner P Ripke S Xiong L Jalilzadeh S Fulda S Pütz B Eckstein G Hauk S Trenkwalder C Zimprich A Stiasny-Kolster K Oertel W Bachmann CG Paulus W Peglau I Eisensehr I Montplaisir J Turecki G Rouleau G Gieger C Illig T Wichmann HE Holsboer F Müller-Myhsok B Meitinger T 《Nature genetics》2007,39(8):1000-1006
85.
86.
A gene in the multidrug and toxic compound extrusion (MATE) family confers aluminum tolerance in sorghum 总被引:19,自引:0,他引:19
Magalhaes JV Liu J Guimarães CT Lana UG Alves VM Wang YH Schaffert RE Hoekenga OA Piñeros MA Shaff JE Klein PE Carneiro NP Coelho CM Trick HN Kochian LV 《Nature genetics》2007,39(9):1156-1161
Crop yields are significantly reduced by aluminum toxicity on highly acidic soils, which comprise up to 50% of the world's arable land. Candidate aluminum tolerance proteins include organic acid efflux transporters, with the organic acids forming non-toxic complexes with rhizosphere aluminum. In this study, we used positional cloning to identify the gene encoding a member of the multidrug and toxic compound extrusion (MATE) family, an aluminum-activated citrate transporter, as responsible for the major sorghum (Sorghum bicolor) aluminum tolerance locus, Alt(SB). Polymorphisms in regulatory regions of Alt(SB) are likely to contribute to large allelic effects, acting to increase Alt(SB) expression in the root apex of tolerant genotypes. Furthermore, aluminum-inducible Alt(SB) expression is associated with induction of aluminum tolerance via enhanced root citrate exudation. These findings will allow us to identify superior Alt(SB) haplotypes that can be incorporated via molecular breeding and biotechnology into acid soil breeding programs, thus helping to increase crop yields in developing countries where acidic soils predominate. 相似文献
87.
Spinazzola A Viscomi C Fernandez-Vizarra E Carrara F D'Adamo P Calvo S Marsano RM Donnini C Weiher H Strisciuglio P Parini R Sarzi E Chan A DiMauro S Rötig A Gasparini P Ferrero I Mootha VK Tiranti V Zeviani M 《Nature genetics》2006,38(5):570-575
The mitochondrial (mt) DNA depletion syndromes (MDDS) are genetic disorders characterized by a severe, tissue-specific decrease of mtDNA copy number, leading to organ failure. There are two main clinical presentations: myopathic (OMIM 609560) and hepatocerebral (OMIM 251880). Known mutant genes, including TK2, SUCLA2, DGUOK and POLG, account for only a fraction of MDDS cases. We found a new locus for hepatocerebral MDDS on chromosome 2p21-23 and prioritized the genes on this locus using a new integrative genomics strategy. One of the top-scoring candidates was the human ortholog of the mouse kidney disease gene Mpv17. We found disease-segregating mutations in three families with hepatocerebral MDDS and demonstrated that, contrary to the alleged peroxisomal localization of the MPV17 gene product, MPV17 is a mitochondrial inner membrane protein, and its absence or malfunction causes oxidative phosphorylation (OXPHOS) failure and mtDNA depletion, not only in affected individuals but also in Mpv17-/- mice. 相似文献
88.
Claudia Compagnucci Monica Nizzardo Stefania Corti Ginevra Zanni Enrico Bertini 《Cellular and molecular life sciences : CMLS》2014,71(9):1623-1639
Neurogenesis is the developmental process regulating cell proliferation of neural stem cells, determining their differentiation into glial and neuronal cells, and orchestrating their organization into finely regulated functional networks. Can this complex process be recapitulated in vitro using induced pluripotent stem cell (iPSC) technology? Can neurodevelopmental and neurodegenerative diseases be modeled using iPSCs? What is the potential of iPSC technology in neurobiology? What are the recent advances in the field of neurological diseases? Since the applications of iPSCs in neurobiology are based on the capacity to regulate in vitro differentiation of human iPSCs into different neuronal subtypes and glial cells, and the possibility of obtaining iPSC-derived neurons and glial cells is based on and hindered by our poor understanding of human embryonic development, we reviewed current knowledge on in vitro neural differentiation from a developmental and cellular biology perspective. We highlight the importance to further advance our understanding on the mechanisms controlling in vivo neurogenesis in order to efficiently guide neurogenesis in vitro for cell modeling and therapeutical applications of iPSCs technology. 相似文献
89.
90.
Treiber CD Salzer MC Riegler J Edelman N Sugar C Breuss M Pichler P Cadiou H Saunders M Lythgoe M Shaw J Keays DA 《Nature》2012,484(7394):367-370
Understanding the molecular and cellular mechanisms that mediate magnetosensation in vertebrates is a formidable scientific problem. One hypothesis is that magnetic information is transduced into neuronal impulses by using a magnetite-based magnetoreceptor. Previous studies claim to have identified a magnetic sense system in the pigeon, common to avian species, which consists of magnetite-containing trigeminal afferents located at six specific loci in the rostral subepidermis of the beak. These studies have been widely accepted in the field and heavily relied upon by both behavioural biologists and physicists. Here we show that clusters of iron-rich cells in the rostro-medial upper beak of the pigeon Columbia livia are macrophages, not magnetosensitive neurons. Our systematic characterization of the pigeon upper beak identified iron-rich cells in the stratum laxum of the subepidermis, the basal region of the respiratory epithelium and the apex of feather follicles. Using a three-dimensional blueprint of the pigeon beak created by magnetic resonance imaging and computed tomography, we mapped the location of iron-rich cells, revealing unexpected variation in their distribution and number--an observation that is inconsistent with a role in magnetic sensation. Ultrastructure analysis of these cells, which are not unique to the beak, showed that their subcellular architecture includes ferritin-like granules, siderosomes, haemosiderin and filopodia, characteristics of iron-rich macrophages. Our conclusion that these cells are macrophages and not magnetosensitive neurons is supported by immunohistological studies showing co-localization with the antigen-presenting molecule major histocompatibility complex class II. Our work necessitates a renewed search for the true magnetite-dependent magnetoreceptor in birds. 相似文献