03569nam a2200277 a 4500003000400000005001700004008004100021020002200062040001200084041002300096082002500119100001700144245003600161264004000197300005200237336002700289337002700316338002800343490002400371500005300395505239900448520037302847650002503220650002303245650002303268OSt20250822145445.0250121t2018    nyua||||r|||| 00| 0 eng d  a978-1-68117-945-2  cPAerda  aengbengfengheng  aPA 581.1 b.I23 2018  aIbbot, Edgar  aPlant Physiology /cEdgar Ibbot  aNew York :bScitus academics,c2018  aviii, 399 p.bilustraciones, tablas, gráficas  2rdacontentatextobtxt  2rdamediaasin mediobn  2rdacarrieravolumenbnc1 aHorticulture Series  aIncluye referencias bibliográficas e índice.  gChapter 1.The biological pigments in Plants Physiology --
Chapter 2.Biocgemical and physiological constituents and their correlation en wheat (Triticum Aestivum l.) genotypes under high temperature at different development stages --
Chapter 3.Growth analysis and Yield of two varieties groundnut (Arachis Hypogaea L.) as influenced by different weed control methods --
Chapter 4.Influence of the position of flowers buds on the tree on somatic embryogenesis of cocoa (Theobroma Cacao L.) --
Chapter 5.Managing irrigation of fruit trees using plant water status --
Chapter 6.Research progress in pysiological and molecular biology mechanism of drought resistance in Rice*83 --
Chapter 7.FLC expression is down-regulated by cold treatment in diplotaxis tenuifolia (wild rocket), but flowering time isunaffected --
Chapter 8.Senescence, stress, and reactive Oxygen species --
Chapter 9.Charecterization of grain nutritional quality in wheat --
Chapter 10.Evaluating Postharvest characteristics of apantu (local false horn) plantain for harvest indices determination --
Chapter 11.Physiological responses to humic substances as plant growth promoter --
Chapter 12.Formation of (2E)-4-Hydroxy-2-nonenal and (2E)-4-Hydroxy-2-hexenal by plant Enzymes: a review suggests a role in the physiology of plants
Chapter 13.Rescue of heavy metal effects on cell physiology of the algal model system Micrasterias by Divalent ions --
Chapter 14.Protocol Optimization for enhanced production of pigments in Spirulina --
Chapter 15.Plant Responses to climate change: the case study of betulaceae and poaceae pollen seasons (Northern Italy, Vignola, Emilia-Romagna) --
Chapter 16.Thermal requirement of Indian Mustard (Brassica Juncea) at different phonological Stages under late sown --
Chapter 17.Senescence, Stress, and reactive Oxygen species --
Chapter 18.Phenotypic characterization of the arabidopsis UFM1 (Ubiquitin fold ,odifier) gene involved in seed development --
Chapter 19.Physiological and pathological impacts of Potassium silicate on storability of Anna Apple Fruits --
Chapter 20.Crp management as a driving force of plant growth promoting rhizobacteria Physiology --
Chapter 21.Plant Growth promotion by Streptomycetes: Ecophysiology, Mechanisms and applications --
Chapter 22.Key knowledge and data gaps in modelling the influence of CO2 concentration on the terrestrial carbon sink --
Index.

  aThe book provides general principles and new insights of some plant physiology aspects covering abiotic stress, biochemistry and metabolism, transport and translocation, plant water relations, mineral nutrition and reproduction. This book may serve as source of methods, theories, ideas and tools for students, researchers and experts in the areas of plant physiology. 7aFisiología vegetal 7aAnatomía vegetal 0aPlant physiology  