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Cruciferae. --- Crucifères. --- Sisymbrium.
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FRA France --- Sisymbrium supinum --- conservation --- nature conservation --- bioconservation --- management --- France
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EUC Central Europe --- Central Europe --- Slovakia --- Hungary --- Carpathian mountains --- symposium proceedings --- plant protection --- Crataegus --- Empetrum hermaphroditum --- Sisymbrium --- Hypericum perforatum --- Ferula sadleriana --- Erysimum --- Biscutella laevigata
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Arabidopsis thaliana. --- Arabis thaliana --- Cress, Mouse-ear --- Cress, Mouseear --- Cress, Thale --- Mouse-ear cress --- Mouseear cress --- Sisymbrium thalianum --- Thale cress --- Arabidopsis
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SCIENCE --- Life Sciences / Genetics & Genomics --- Plant genome mapping --- Arabidopsis thaliana --- Plant Ecology --- Botany --- Earth & Environmental Sciences --- Planning --- Research --- Arabis thaliana --- Cress, Mouse-ear --- Cress, Mouseear --- Cress, Thale --- Mouse-ear cress --- Mouseear cress --- Sisymbrium thalianum --- Thale cress --- Mapping, Plant genome --- Plant chromosome mapping --- Plant gene mapping --- Arabidopsis --- Gene mapping --- Plant genetics --- Technique
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SEP Separates --- Anagallis monelli --- Anemone blanda --- Beckmannia syzigachne --- Brachiaria marlothii --- Inula orientalis --- Lepidium --- Lonicera nitida --- Lychnis coronaria --- Microsorium diversifolium --- Neillia sinensis --- Petasites palmatus --- Potentilla cinerea --- Scabiosa caucasica --- Scutellaria altissima --- Senecio glastifloius --- Setcreasea pallida --- Sisymbrium runcinatum --- Staipa arundinacea --- United Kingdom ( UK ) --- Viburnum farreri --- Xanthium --- casual species
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Organogenesis entails the regulation of cell division, cell expansion, cell and tissue type differentiation, and patterning of the organ as a whole. It is essential to gain insight into how organs are initiated and how they develop. However, this very often is subject to technical difficulties as these processes take place embedded deep in tissues or are difficult to access or visualize. To achieve this, we need specialized techniques such as those concisely illustrated in Plant Organogenesis: Methods and Protocols. Chapters address topics such as how to study and image the structure of ovules and embryos of Arabidopsis thaliana, tools to establish cell lineages in order to visualize the contribution of each cell and cell division to the building of a mature organ, approaches to study the totipotency of several plant cells, techniques such as the use of fluorescence-activated cell sorting (FACS) to analyse transcriptomes and hormone levels in Arabidopsis, methods to investigate organogenesis in economically important crops, and computer-based approaches to bring everything together. Written in the successful Methods in Molecular Biology™ series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible protocols, and notes on troubleshooting and avoiding known pitfalls. Authoritative and easily accessible, Plant Organogenesis: Methods and Protocols serves both professionals and novices with its well-honed methodologies in an effort to further our knowledge of this fascinating research field.
Plant morphogenesis --- Plant cell development --- Plant cell differentiation --- Arabidopsis thaliana --- Growth --- Brassicaceae --- Angiosperms --- Embryophyta --- Streptophyta --- Viridiplantae --- Plants --- Eukaryota --- Organisms --- Arabidopsis --- Botany --- Earth & Environmental Sciences --- Plant Anatomy --- Arabis thaliana --- Cress, Mouse-ear --- Cress, Mouseear --- Cress, Thale --- Mouse-ear cress --- Mouseear cress --- Sisymbrium thalianum --- Thale cress --- Arabidopses --- Arabidopsis thalianas --- Cress, Mouse ear --- Cresses, Mouse-ear --- Mouse-ear Cress --- Mouse-ear Cresses --- thaliana, Arabidopsis --- Eucarya --- Eukarya --- Eukaryotes --- Eukaryotas --- Eukaryote --- Plant --- Land Plants --- Land Plant --- Plant, Land --- Plants, Land --- Angiospermae --- Liliopsida --- Magnoliopsida --- Angiosperm --- Liliopsidas --- Magnoliopsidas --- Cell development, Plant --- Green Plants --- Green Plant --- Plant, Green --- Plants, Green --- Moricandia --- Cress --- Cruciferae --- Cresses --- Moricandias --- Life sciences. --- Plant biochemistry. --- Plant science. --- Botany. --- Life Sciences. --- Plant Sciences. --- Plant Biochemistry. --- Botanical science --- Phytobiology --- Phytography --- Phytology --- Plant biology --- Plant science --- Biology --- Natural history --- Phytochemistry --- Plant biochemistry --- Plant chemistry --- Biochemistry --- Phytochemicals --- Plant biochemical genetics --- Biosciences --- Sciences, Life --- Science --- Biochemistry. --- Biological chemistry --- Chemical composition of organisms --- Physiological chemistry --- Chemistry --- Medical sciences --- Composition --- Floristic botany
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Greenhouse horticulture is one of the most intensive agricultural systems, focusing on the production of high-value products. This book presents current research findings that cover a wide range of new technologies and novel agricultural practices, which are preconditions for successful production in a very competitive global environment.
Research & information: general --- Biology, life sciences --- soilless culture --- root growth --- root/shoot ratio --- Allium porrum --- organic management --- production --- sugars --- selenium --- antioxidants --- minerals --- remote sensing --- hyperspectral --- reflectance index --- classification tree --- machine vision --- accumulated radiation method --- feedback irrigation system --- fuzzy control system --- irrigation dose --- precision irrigation --- phyto-sensing --- transpiration --- water use efficiency --- Sisymbrium officinale --- Brassicaceae --- hedge mustard --- leafy vegetables --- container substrates --- physical properties --- chemical properties --- biomass --- Citrullus lanatus --- vegetable grafting --- optimal production --- marketable seedlings --- quality indicators --- greenhouse --- metro-mix --- Dahlia --- Rudbeckia --- Gerbera --- abiotic factors --- biocontrol agent (BCA) --- controlled environment --- ecological theory --- molecular mechanisms --- non-phototrophic bacteria --- pathogens --- phyllosphere --- plant metabolism --- plant morphology --- semi-transparent photovoltaic modules --- hydroponics --- tomato --- bioactive ingredients --- lycopene --- antioxidant capacity --- urban agriculture --- reclaimed wastewater --- controlled environment agriculture --- soilless production --- brewery --- Brassica juncea --- Lactuca sativa --- Ocimum basilicum --- light emitting diodes --- GA3 --- extended photoperiod --- light --- protected cultivation --- vegetables --- ornamental
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Greenhouse horticulture is one of the most intensive agricultural systems, focusing on the production of high-value products. This book presents current research findings that cover a wide range of new technologies and novel agricultural practices, which are preconditions for successful production in a very competitive global environment.
soilless culture --- root growth --- root/shoot ratio --- Allium porrum --- organic management --- production --- sugars --- selenium --- antioxidants --- minerals --- remote sensing --- hyperspectral --- reflectance index --- classification tree --- machine vision --- accumulated radiation method --- feedback irrigation system --- fuzzy control system --- irrigation dose --- precision irrigation --- phyto-sensing --- transpiration --- water use efficiency --- Sisymbrium officinale --- Brassicaceae --- hedge mustard --- leafy vegetables --- container substrates --- physical properties --- chemical properties --- biomass --- Citrullus lanatus --- vegetable grafting --- optimal production --- marketable seedlings --- quality indicators --- greenhouse --- metro-mix --- Dahlia --- Rudbeckia --- Gerbera --- abiotic factors --- biocontrol agent (BCA) --- controlled environment --- ecological theory --- molecular mechanisms --- non-phototrophic bacteria --- pathogens --- phyllosphere --- plant metabolism --- plant morphology --- semi-transparent photovoltaic modules --- hydroponics --- tomato --- bioactive ingredients --- lycopene --- antioxidant capacity --- urban agriculture --- reclaimed wastewater --- controlled environment agriculture --- soilless production --- brewery --- Brassica juncea --- Lactuca sativa --- Ocimum basilicum --- light emitting diodes --- GA3 --- extended photoperiod --- light --- protected cultivation --- vegetables --- ornamental
Choose an application
Greenhouse horticulture is one of the most intensive agricultural systems, focusing on the production of high-value products. This book presents current research findings that cover a wide range of new technologies and novel agricultural practices, which are preconditions for successful production in a very competitive global environment.
Research & information: general --- Biology, life sciences --- soilless culture --- root growth --- root/shoot ratio --- Allium porrum --- organic management --- production --- sugars --- selenium --- antioxidants --- minerals --- remote sensing --- hyperspectral --- reflectance index --- classification tree --- machine vision --- accumulated radiation method --- feedback irrigation system --- fuzzy control system --- irrigation dose --- precision irrigation --- phyto-sensing --- transpiration --- water use efficiency --- Sisymbrium officinale --- Brassicaceae --- hedge mustard --- leafy vegetables --- container substrates --- physical properties --- chemical properties --- biomass --- Citrullus lanatus --- vegetable grafting --- optimal production --- marketable seedlings --- quality indicators --- greenhouse --- metro-mix --- Dahlia --- Rudbeckia --- Gerbera --- abiotic factors --- biocontrol agent (BCA) --- controlled environment --- ecological theory --- molecular mechanisms --- non-phototrophic bacteria --- pathogens --- phyllosphere --- plant metabolism --- plant morphology --- semi-transparent photovoltaic modules --- hydroponics --- tomato --- bioactive ingredients --- lycopene --- antioxidant capacity --- urban agriculture --- reclaimed wastewater --- controlled environment agriculture --- soilless production --- brewery --- Brassica juncea --- Lactuca sativa --- Ocimum basilicum --- light emitting diodes --- GA3 --- extended photoperiod --- light --- protected cultivation --- vegetables --- ornamental --- soilless culture --- root growth --- root/shoot ratio --- Allium porrum --- organic management --- production --- sugars --- selenium --- antioxidants --- minerals --- remote sensing --- hyperspectral --- reflectance index --- classification tree --- machine vision --- accumulated radiation method --- feedback irrigation system --- fuzzy control system --- irrigation dose --- precision irrigation --- phyto-sensing --- transpiration --- water use efficiency --- Sisymbrium officinale --- Brassicaceae --- hedge mustard --- leafy vegetables --- container substrates --- physical properties --- chemical properties --- biomass --- Citrullus lanatus --- vegetable grafting --- optimal production --- marketable seedlings --- quality indicators --- greenhouse --- metro-mix --- Dahlia --- Rudbeckia --- Gerbera --- abiotic factors --- biocontrol agent (BCA) --- controlled environment --- ecological theory --- molecular mechanisms --- non-phototrophic bacteria --- pathogens --- phyllosphere --- plant metabolism --- plant morphology --- semi-transparent photovoltaic modules --- hydroponics --- tomato --- bioactive ingredients --- lycopene --- antioxidant capacity --- urban agriculture --- reclaimed wastewater --- controlled environment agriculture --- soilless production --- brewery --- Brassica juncea --- Lactuca sativa --- Ocimum basilicum --- light emitting diodes --- GA3 --- extended photoperiod --- light --- protected cultivation --- vegetables --- ornamental
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