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dendrology --- trees --- introduction --- cultivation --- cold hardiness --- conservation status --- keys

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HOR Horticulture --- Cycadaceae --- Cycads --- Palmae --- cold hardiness --- horticulture --- special cultures

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RESISTANCE --- IMPROVEMENT --- COLD STRESS --- SELECTION --- CEREALS --- INJURIES --- RECOVERY --- WINTER --- MODELS --- CRYOPROTECTION --- STRESSES --- FREEZING --- FREEZE INJURIES --- COLD INJURIES --- COLD HARDINESS --- PLANTS --- IMPROVEMENT --- CEREALS --- RECOVERY --- MODELS --- RESISTANCE --- IMPROVEMENT --- COLD STRESS --- SELECTION --- CEREALS --- INJURIES --- RECOVERY --- WINTER --- MODELS --- CRYOPROTECTION --- STRESSES --- FREEZING --- FREEZE INJURIES --- COLD INJURIES --- COLD HARDINESS --- PLANTS --- IMPROVEMENT --- CEREALS --- RECOVERY --- MODELS

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PRO Proceedings & Abstracts --- plant physiology --- cold hardiness --- molecular genetics --- cell biology --- symposium proceedings --- 58.036.5 --- 632.111.6 --- Cold --- Cold. Low temperatures --- 632.111.6 Cold. Low temperatures --- 58.036.5 Cold --- Plants --- Flora --- Plant kingdom --- Plantae --- Vascular plants --- Vegetable kingdom --- Vegetation --- Wildlife --- Organisms --- Botany --- Frost resistance

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Ornamental crops account for more than US $42 billion globally. With the exception of few floral species, limited genetic, genomic, and breeding information is publicly available, owing to the fact that the majority of breeding work is performed by the private sector. Public research programs are increasingly participating in ornamental cultivar development and genetic studies. With lower sequencing costs, genomic information of non-model species including ornamental crops is continuously becoming available. Ornamental breeding utilizes a wide array of breeding strategies ranging from traditional crossing and selection methods to the use of next-generation sequencing in genomics and transcriptomics for gene identification and trait development. A continuing search of new species for the ornamentals industry has resulted in the utilization of tools that increase diversity and in the development of alternative methods for obtaining new crops by achieving interspecific and intergeneric crosses. This Special Issue aimed to present papers on new breeding methods, novel cultivars and species entering the ornamental industry, the identification of genes conferring novel traits, technological developments in ornamentals research, and the use of next-generation sequencing to improve ornamental plants.

Technology: general issues --- Biotechnology --- Acer buergerianum --- Acer ginnala --- Acer platanoides --- Acer tataricum ssp. ginnala --- ploidy manipulation --- sterility --- Hydrangea macrophylla --- SSR --- SNP --- linkage map --- flower senescence --- nuclease --- nutrient deficiency --- petals --- programmed cell death --- virus induced gene silencing --- bolting --- cut flower --- germinal pore --- ornamental plant --- polyploidy periclinal chimera --- Plumbaginaceae --- polyploidy breeding --- cold hardiness --- LT50 --- sucrose --- oligosaccharides --- soluble sugar metabolism --- gene expression --- breeding --- geophytes --- interspecific cross --- plant hormone treatment --- pollen-pistil interaction --- pre-zygotic barrier --- Ranunculaceae --- n/a