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Lolium perenne --- Lolium perenne --- Elymus --- Elymus --- Weeds --- Weeds --- Grazing --- Grazing --- Growth rate --- Growth rate --- Mixed cropping --- Mixed cropping --- Elymus repens --- Elymus repens
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This technical note disseminates the article, Contrasting Responses of Squirreltail and Needleandthread to Herbage Removal, by Henry A. Wright, which presents interesting information on lack of summer dormancy of Stipa comata.
Range management --- Grasses --- Elymus --- Stipa comata --- Control --- United States.
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This technical note disseminates the article, Contrasting Responses of Squirreltail and Needleandthread to Herbage Removal, by Henry A. Wright, which presents interesting information on lack of summer dormancy of Stipa comata.
Range management --- Grasses --- Elymus --- Stipa comata --- Elymus. --- Grasses. --- Stipa comata. --- Range management. --- Control --- Control --- Control --- United States.
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This technical note disseminates the article, Contrasting Responses of Squirreltail and Needleandthread to Herbage Removal, by Henry A. Wright, which presents interesting information on lack of summer dormancy of Stipa comata.
Range management --- Grasses --- Elymus --- Stipa comata --- Elymus. --- Grasses. --- Stipa comata. --- Range management. --- Control --- Control --- Control --- United States.
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Elymus elongatus subsp. ponticus, a native of SE-Europe and SW-Asia, has been recorded in abundance on the banks of river Escaut in northern France in 2006. It was probably sown and persisted subsequently. Some chorological and nomenclatural comments are added
BR Staff Publications [b] (paper in not reviewed journal) --- Gramineae --- Elymus elongatus --- France
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Environmental abiotic stresses, such as extreme temperatures, drought, excess light, salinity, and nutrient deficiency, have detrimental effects on plant growth, development, and yield. Plants are equipped with various adaptation mechanisms to cope with such unfavorable conditions. Our understanding of plants’ abiotic stress responses is crucial to maintaining efficient plant productivity. This book on the responses of plants to environmental stresses is an attempt to find answers to several basic questions related to their adaptation and protective mechanisms against abiotic stresses. The following chapters of the book describe examples of plants’ protective strategies, which cover physiological, cellular, biochemical, and genomic mechanisms. This book is aimed for use by advanced students and researchers in the area of stress biology, plant molecular biology and physiology, agriculture, biochemistry, as well as environmental sciences.
Heterogeneous water stress --- Phyllostachys edulis --- Rhizome --- Vascular bundle --- Stress Signal --- Physiological characteristics --- isoprene --- ocimene --- heat stress --- water stress --- ramie (Boehmeria nivea (L.) Gaudich) --- transcriptome --- nitrogen deficiency --- resilience --- nitrogen-use efficiency --- eggplant --- heat shock factor --- gene family --- expression profile --- abiotic stress --- Malus. ‘Prairifire’ --- photosynthetic characteristics --- chlorophyll a fluorescence --- 2-dimensional electrophoresis --- diurnal regulation --- OsGI --- rice --- U-box E3 ligase --- barley --- ABC gene family --- gene expression --- alarm photosynthesis --- Antarctic --- oxalate oxidase --- Elymus sibiricus, seed aging --- isobaric tandem mass tag labeling --- reactive oxygen species --- parallel reaction monitoring --- Dendrobium catenatum --- superoxide dismutase (SOD) --- stresses --- antioxidative enzyme activity --- low pH --- proline --- protein --- wheat --- WRKY transcription factor --- gene structural characteristics --- regulatory mechanism --- drought --- salinity --- heat --- cold --- ultraviolet radiation --- rainfed --- irrigated --- Gossypium hirsutum --- antioxidant activity --- growth inhibition --- ion homeostasis --- salt stress --- rhizoboxes --- gaseous exchange --- sub-Saharan Africa --- root length density
Choose an application
Environmental abiotic stresses, such as extreme temperatures, drought, excess light, salinity, and nutrient deficiency, have detrimental effects on plant growth, development, and yield. Plants are equipped with various adaptation mechanisms to cope with such unfavorable conditions. Our understanding of plants’ abiotic stress responses is crucial to maintaining efficient plant productivity. This book on the responses of plants to environmental stresses is an attempt to find answers to several basic questions related to their adaptation and protective mechanisms against abiotic stresses. The following chapters of the book describe examples of plants’ protective strategies, which cover physiological, cellular, biochemical, and genomic mechanisms. This book is aimed for use by advanced students and researchers in the area of stress biology, plant molecular biology and physiology, agriculture, biochemistry, as well as environmental sciences.
Medicine --- Heterogeneous water stress --- Phyllostachys edulis --- Rhizome --- Vascular bundle --- Stress Signal --- Physiological characteristics --- isoprene --- ocimene --- heat stress --- water stress --- ramie (Boehmeria nivea (L.) Gaudich) --- transcriptome --- nitrogen deficiency --- resilience --- nitrogen-use efficiency --- eggplant --- heat shock factor --- gene family --- expression profile --- abiotic stress --- Malus. ‘Prairifire’ --- photosynthetic characteristics --- chlorophyll a fluorescence --- 2-dimensional electrophoresis --- diurnal regulation --- OsGI --- rice --- U-box E3 ligase --- barley --- ABC gene family --- gene expression --- alarm photosynthesis --- Antarctic --- oxalate oxidase --- Elymus sibiricus, seed aging --- isobaric tandem mass tag labeling --- reactive oxygen species --- parallel reaction monitoring --- Dendrobium catenatum --- superoxide dismutase (SOD) --- stresses --- antioxidative enzyme activity --- low pH --- proline --- protein --- wheat --- WRKY transcription factor --- gene structural characteristics --- regulatory mechanism --- drought --- salinity --- heat --- cold --- ultraviolet radiation --- rainfed --- irrigated --- Gossypium hirsutum --- antioxidant activity --- growth inhibition --- ion homeostasis --- salt stress --- rhizoboxes --- gaseous exchange --- sub-Saharan Africa --- root length density --- Heterogeneous water stress --- Phyllostachys edulis --- Rhizome --- Vascular bundle --- Stress Signal --- Physiological characteristics --- isoprene --- ocimene --- heat stress --- water stress --- ramie (Boehmeria nivea (L.) Gaudich) --- transcriptome --- nitrogen deficiency --- resilience --- nitrogen-use efficiency --- eggplant --- heat shock factor --- gene family --- expression profile --- abiotic stress --- Malus. ‘Prairifire’ --- photosynthetic characteristics --- chlorophyll a fluorescence --- 2-dimensional electrophoresis --- diurnal regulation --- OsGI --- rice --- U-box E3 ligase --- barley --- ABC gene family --- gene expression --- alarm photosynthesis --- Antarctic --- oxalate oxidase --- Elymus sibiricus, seed aging --- isobaric tandem mass tag labeling --- reactive oxygen species --- parallel reaction monitoring --- Dendrobium catenatum --- superoxide dismutase (SOD) --- stresses --- antioxidative enzyme activity --- low pH --- proline --- protein --- wheat --- WRKY transcription factor --- gene structural characteristics --- regulatory mechanism --- drought --- salinity --- heat --- cold --- ultraviolet radiation --- rainfed --- irrigated --- Gossypium hirsutum --- antioxidant activity --- growth inhibition --- ion homeostasis --- salt stress --- rhizoboxes --- gaseous exchange --- sub-Saharan Africa --- root length density
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