about
LAITOR--Literature Assistant for Identification of Terms co-Occurrences and RelationshipsForecasting climate change impacts on the distribution of wetland habitat in the Midwestern United states.A comparative proteomic analysis of tomato leaves in response to waterlogging stress.Characterization of a novel flooding stress-responsive alcohol dehydrogenase expressed in soybean roots.Phytoglobins Improve Hypoxic Root Growth by Alleviating Apical Meristem Cell Death.Responses of photosynthetic capacity to soil moisture gradient in perennial rhizome grass and perennial bunchgrassExamination of the leaf proteome during flooding stress and the induction of programmed cell death in maize.The mitochondrion-located protein OsB12D1 enhances flooding tolerance during seed germination and early seedling growth in rice.A comparison of screening methods to identify waterlogging tolerance in the field in Brassica napus L. during plant ontogeny.Poly(A) RNAs including coding proteins RNAs occur in plant Cajal bodies.Introduction to the Special Issue: Electrons, water and rice fields: plant response and adaptation to flooding and submergence stressThe Transcriptome of Brassica napus L. Roots under Waterlogging at the Seedling Stage.Comparative Proteomic Analysis Provides Insight into the Key Proteins Involved in Cucumber (Cucumis sativus L.) Adventitious Root Emergence under Waterlogging Stress.Responses to flooding of plant water relations and leaf gas exchange in tropical tolerant trees of a black-water wetlandGenome wide identification of C1-2i zinc finger proteins and their response to abiotic stress in hexaploid wheat.Understanding the genetic control and physiological traits associated with rhizosheath production by barley (Hordeum vulgare).Characterization of ascorbate peroxidase in soybean under flooding and drought stresses.Arbuscular mycorrhizal fungi communities from tropical Africa reveal strong ecological structure.Growth dynamics of Chinese wingnut (Pterocarya stenoptera) seedlings and its effects on soil chemical properties under simulated water change in the Three Gorges Reservoir Region of Yangtze River.Variation in flooding-induced morphological traits in natural populations of white clover (Trifolium repens) and their effects on plant performance during soil flooding.Comparison of growth and physiological characteristics between roughstalk bluegrass and tall fescue in response to simulated waterlogging.Biochemical adaptations of four submerged macrophytes under combined exposure to hypoxia and hydrogen sulphide.Cellular basis of growth suppression by submergence in azuki bean epicotyls.Tolerance of three grain legume species to transient waterlogging.Activities of enzymes of fermentation pathways in the leaves and roots of contrasting cultivars of sorghum (Sorghum Bicolor L.) during flooding.Nitric oxide is essential for the development of aerenchyma in wheat roots under hypoxic stress.Acclimation of Hydrilla verticillata to sediment anoxia in vegetation restoration in eutrophic waters.Functional Characterization of Waterlogging and Heat Stresses Tolerance Gene Pyruvate decarboxylase 2 from Actinidia deliciosa.Tree mortality in response to typhoon-induced floods and mudslides is determined by tree species, size, and position in a riparian Formosan gum forest in subtropical Taiwan.A novel nonsymbiotic hemoglobin from oak: cellular and tissue specificity of gene expression.Effect of waterlogging at different growth stages on some morphological traits of wheat varieties.Transcriptional responses to flooding stress in roots including hypocotyl of soybean seedlings.Genome-wide transcriptional analysis of submerged lotus reveals cooperative regulation and gene responses.Comparative Transcriptome Analysis of Waterlogging-Sensitive and Waterlogging-Tolerant Chrysanthemum morifolium Cultivars under Waterlogging Stress and Reoxygenation Conditions.Elucidating the hypoxic stress response in barley (Hordeum vulgare L.) during waterlogging: A proteomics approach.Influence of Soil Physical Properties on Plants of the Mussununga Ecosystem, BrazilPhotosynthesis and growth adaptation of Pterocarya stenoptera and Pinus elliottii seedlings to submergence and droughtFlooding Effects on the Population Dynamics of Cabomba furcata and Nelumbo nucifera in a Shallow Floodplain WetlandRiver–floodplain hydrology of an embanked lowland Chalk river and initial response to embankment removalArsenic accumulation and speciation in rice are affected by root aeration and variation of genotypes
P2860
Q28744445-9CAA44A4-8BA2-4B1B-BCF0-0115B866B922Q30853790-27BCE776-F494-4026-80BB-DAA6C67B871FQ33318300-F11DD479-ED3A-418F-BF4A-2D5FC9CC502FQ33351920-907C1E11-5265-472C-B00A-46CC641C708CQ33364001-7D3C820C-1F40-4EED-80BD-5A3C11FAFEBCQ33803460-296DDEF1-D0A7-4A71-BB72-EBCF911DC663Q33904103-57839149-0D92-4A2A-ACCE-23640A9E1C59Q34158372-1EF90EC6-AAC0-47B4-AF6B-D23F10364183Q35110677-ED15EA22-0C1B-41E1-8EDC-A0AB9F19584FQ35391581-35969AAE-1EDC-4B3A-919C-ACE62BD40A66Q36041343-CD0CD956-CE49-4A88-A872-D7199227D3CFQ36655982-C2047E37-5BDF-496E-B388-B63BBDA38DDFQ37335447-88FA388D-86EE-45CF-BFFF-2156C0480E0AQ38103862-4939486D-A666-4E2E-A0CB-0ADC4B2B9223Q38943628-A470AA19-0525-474D-93FA-63843FC38349Q39020678-5F90BAE5-D04E-429D-835E-B110AF77A707Q39124425-ADB3DE02-9F9D-4A5F-86C0-810D0994FA3BQ39405034-6E684237-AD37-4D3E-926E-4AAE7BA60D10Q39613847-CD935023-E48B-4C49-8A52-BE8CC9DB2C80Q40057505-95230F64-086D-44B5-9E22-36D53FC140C2Q41153879-0ACB4FD6-197A-44EF-AD61-F713C0082B26Q41255504-2A9E76CE-76FB-4630-BAA6-98F43B80F618Q42084470-83E61D53-E648-412E-BB67-59762589E972Q42117335-FD814CE0-B3F9-454E-B8E1-36AFD2416933Q42878362-ED01F373-C2FE-48CA-86CB-3CFFC0E7DAD6Q46313977-C60EE91C-C514-48E3-B2DA-DC8C03EE652DQ46661526-16E22BA8-FA0A-430F-BA2A-94A40BD8FD42Q47152965-885360CF-B918-4674-AD13-B12F4DAEC913Q47172308-51186C4B-BC49-4F80-8722-AFB0F3E39E59Q48076620-446FD289-0EFC-4C2B-BAEC-EBACEE369D0AQ48369971-F3F6FA77-789E-4BB1-A857-4480853EBDCFQ51548283-97807D82-DDA7-4241-A0DF-97C910B3903DQ55312379-B4CAFE48-E227-48CC-BDAE-3384C1E905E5Q55344983-C74DE22D-E4AE-4706-BBC5-048F525988CDQ55433289-71D76B76-BCD4-462D-AFEC-6197381F1C76Q56286357-FC01C4E5-DEA0-46C1-92AB-D2C25A98C9E1Q56418270-90A19275-4083-4F77-80A3-E00D4DEF8CB0Q56449554-0B220A33-0F07-4B8D-97CC-B647EFE1C8E6Q57045864-FA1C3883-C5F0-478B-AA17-FF22A26DCDC4Q57056575-C6DD14C0-BD26-455E-BBA6-22759E798B61
P2860
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
Response and adaptation by plants to flooding stress.
@en
Response and adaptation by plants to flooding stress.
@nl
type
label
Response and adaptation by plants to flooding stress.
@en
Response and adaptation by plants to flooding stress.
@nl
prefLabel
Response and adaptation by plants to flooding stress.
@en
Response and adaptation by plants to flooding stress.
@nl
P2860
P356
P1433
P1476
Response and adaptation by plants to flooding stress.
@en
P2093
M B Jackson
T D Colmer
P2860
P304
P356
10.1093/AOB/MCI205
P407
P577
2005-09-01T00:00:00Z