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Garnet --- Oxalic acid. --- Dissolution.
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Garnet --- Oxalic acid. --- Dissolution.
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Urogenital system --- Oxalic acid --- therapy --- lactic acid bacteria --- Oxalobacter formigens
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Acide oxalique dans l'organisme. --- Oxalic acid in the body.
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milk --- Beverages --- cocoa beverages --- Calcium --- Oxalic acid --- Milk products --- Mineral nutrients --- Dietetics
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The available range of ornamental plants (cut flowers, potted plants, perennials, bulbous, woody ornamental plants) is constantly being supplemented with new species and cultivars; thus, new methods for their production are required. The sustainable development of the floriculture industry requires modern and environmentally friendly solutions that can maximize the plant’s potential. Therefore, it is necessary to adapt flower production methods to actual conditions and take into account the energy transformation and biological, technical, and organizational advances. This Special Issue is a collection of seven well-written research works covering the current state-of-the-art of ornamental crop production. The main body of the Special Issue gives an interesting coverage of new strategies that can be utilized for plant reproduction, regulating their growth and flowering, adapting production technologies to fit the concept of sustainable development, and optimizing supply chain management. This Special Issue will provide a good reference source for growers, research scientists, and advanced undergraduate students.
Research & information: general --- Biology, life sciences --- life cycle impact assessment (LCIA) --- plant protection --- compost --- sustainable greenhouse production --- biostimulants --- polysaccharides --- bulb coating --- plant enhancement --- metabolites --- roses --- gerberas --- chrysanthemums --- sustainability --- floriculture --- environmental impact --- CO2 footprint --- abscission --- cape primrose --- eco-dormancy --- flowering pot plant --- hydroponics --- Gesneriaceae --- root zone heating --- phyllomorphy --- Streptocarpus formosus --- plant growth regulators --- salicylic acid --- oxalic acid --- DPPH --- antioxidant activity --- reducing power ability --- 1-Naphthylacetic acid --- stimulants --- propagation --- rooting --- shrubs --- supply chain performance --- floricultural sector --- SCOR --- AHP --- n/a
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The available range of ornamental plants (cut flowers, potted plants, perennials, bulbous, woody ornamental plants) is constantly being supplemented with new species and cultivars; thus, new methods for their production are required. The sustainable development of the floriculture industry requires modern and environmentally friendly solutions that can maximize the plant’s potential. Therefore, it is necessary to adapt flower production methods to actual conditions and take into account the energy transformation and biological, technical, and organizational advances. This Special Issue is a collection of seven well-written research works covering the current state-of-the-art of ornamental crop production. The main body of the Special Issue gives an interesting coverage of new strategies that can be utilized for plant reproduction, regulating their growth and flowering, adapting production technologies to fit the concept of sustainable development, and optimizing supply chain management. This Special Issue will provide a good reference source for growers, research scientists, and advanced undergraduate students.
Research & information: general --- Biology, life sciences --- life cycle impact assessment (LCIA) --- plant protection --- compost --- sustainable greenhouse production --- biostimulants --- polysaccharides --- bulb coating --- plant enhancement --- metabolites --- roses --- gerberas --- chrysanthemums --- sustainability --- floriculture --- environmental impact --- CO2 footprint --- abscission --- cape primrose --- eco-dormancy --- flowering pot plant --- hydroponics --- Gesneriaceae --- root zone heating --- phyllomorphy --- Streptocarpus formosus --- plant growth regulators --- salicylic acid --- oxalic acid --- DPPH --- antioxidant activity --- reducing power ability --- 1-Naphthylacetic acid --- stimulants --- propagation --- rooting --- shrubs --- supply chain performance --- floricultural sector --- SCOR --- AHP --- n/a
Choose an application
The available range of ornamental plants (cut flowers, potted plants, perennials, bulbous, woody ornamental plants) is constantly being supplemented with new species and cultivars; thus, new methods for their production are required. The sustainable development of the floriculture industry requires modern and environmentally friendly solutions that can maximize the plant’s potential. Therefore, it is necessary to adapt flower production methods to actual conditions and take into account the energy transformation and biological, technical, and organizational advances. This Special Issue is a collection of seven well-written research works covering the current state-of-the-art of ornamental crop production. The main body of the Special Issue gives an interesting coverage of new strategies that can be utilized for plant reproduction, regulating their growth and flowering, adapting production technologies to fit the concept of sustainable development, and optimizing supply chain management. This Special Issue will provide a good reference source for growers, research scientists, and advanced undergraduate students.
life cycle impact assessment (LCIA) --- plant protection --- compost --- sustainable greenhouse production --- biostimulants --- polysaccharides --- bulb coating --- plant enhancement --- metabolites --- roses --- gerberas --- chrysanthemums --- sustainability --- floriculture --- environmental impact --- CO2 footprint --- abscission --- cape primrose --- eco-dormancy --- flowering pot plant --- hydroponics --- Gesneriaceae --- root zone heating --- phyllomorphy --- Streptocarpus formosus --- plant growth regulators --- salicylic acid --- oxalic acid --- DPPH --- antioxidant activity --- reducing power ability --- 1-Naphthylacetic acid --- stimulants --- propagation --- rooting --- shrubs --- supply chain performance --- floricultural sector --- SCOR --- AHP --- n/a
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"It is not an exaggeration to say that the honey bee is the most well understood insect. We know more about Drosophila genetics, but our integrative understanding of that species pales in comparison to our understanding of every facet of honey bee biology. Despite the tremendous growth in our understanding of honey bee biology, the last comprehensive book on topic was published in 1987. In this book, Brian Johnson offers a comprehensive and up-to-date treatment of honey bee biology. The book covers classic topics such as physiology, communication, division of labor, and reproduction as well as areas that were barely known decades ago such as genomics, cognition, toxicology, and immunity. He concludes with a discussion of honey bees as managed pollinators and conservation issues. Throughout, Johnson also offers his analysis and evaluation of key studies and areas of research. Ultimately, this book is likely to be the new standard reference on honey bee biology and an invaluable resource for anyone with a serious interest in these fascinating organisms"--
Honeybee. --- . --- Abdomen. --- Bee, Brood. --- Beekeeping. --- Biologists. --- Brian Johnson. --- Bumblebee. --- Disease. --- Emblem. --- Excretion. --- Honey Bee Biology. --- Honey bee. --- Humour. --- Larva. --- Monoculture. --- Organophosphate. --- Oxalic acid. --- Pollination. --- Prevalence. --- Princeton University Press. --- Pupa. --- Pyrethroid. --- Queen bee. --- Rubus. --- Thomas Seeley. --- Western honey bee. --- beekeepers. --- bees. --- charismatic organisms. --- comprehensive honey bee book. --- conservationists. --- environmentalists. --- honey bee behavior. --- honey bee development. --- honey bee neurobiology. --- honey bee physiology. --- honey bee. --- molecular genetics. --- pollination biology. --- reference book. --- sustainability.
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