Hua Jiang

Bio: Hua Jiang is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Chlorophyll fluorescence & Non-photochemical quenching. The author has an hindex of 4, co-authored 4 publications receiving 76 citations.

Comparison of Some Photosynthetic Characters Between Two Hybrid Rice Combinations Differing in Yield Potential

Abstract: Photosynthetic characteristics of two hybrid rice combinations, Peiai 64S/E32 and Shanyou 63, were compared at the panicle differentiation stage. As compared with Shanyou 63, the new combination Peiai 64S/E32 showed a significantly higher net photosynthetic rate (PN), apparent quantum yield of carbon assimilation (Φc), carboxylation efficiency (CE), and photorespiratory rate (RP) as well as leaf chlorophyll content, but a significantly lower dark respiration rate (RD) and compensation irradiance (Ic). It also showed a slightly higher photochemical efficiency (Fv/Fm and ΔF/Fm') of photosystem 2, a lower non-photochemical quenching (qN), and a similar CO2 compensation concentration (Γ) as compared to Shanyou 63.

Changes in the Non-Photochemical Quenching of Chlorophyll Fluorescence During Aging of Wheat Flag Leaves

Abstract: Non-photochemical quenching of chlorophyll fluorescence (qN) and its three components (qNf, qNm, and qNs) in the flag leaves of wheat grown in the field were studied by a fluorometer PAM-2000 on clear days. The diurnal variation patterns of qN in just fully extended (JFEL) and aging leaves (AL) were similar, but qNm declined markedly in JFEL while it remained at a relatively high level in AL under strong sunlight at noon. Furthermore, at midday qNf was higher than qNs in JFEL, but much lower in AL. The results show the relative contributions of different mechanisms in preventing the photosynthetic apparatus from photodamage change during leaf development.

The Cause of the Difference in Leaf Net Photosynthetic Rate between Two Soybean Cultivars

Abstract: To explore the cause of difference in photosynthetic performance between different cultivars of crops, leaf net photosynt rate (PN) and photosystem 2 (PS2) photochemical efficiency (Fv/Fm), apparent quantum yield of carbon assimilation (φc), electron transport rate, photophosphorylation activity, etc. were measured in two soybean cultivars, Heinong 42 and Heinong 37. At pod setting and filling, significant differences in PN between them were observed. The former with a higher PN (from 7 to 38 %) had a significantly higher leaf thickness, leaf dry mass/area (LMA), chlorophyll content, soluble protein content, apparent quantum yield of electron transport through PS2 (φe), carboxylation efficiency (CE), and ribulose-1,5-bisphosphate carboxylase (RuBPC) activity. The significantly higher PN of Heinong 42 is mainly due to its higher content and activity of RuBPC.

Physiological basis of the difference in net photosynthetic rate of leaves between two maize strains

Abstract: Significant differences in net photosynthetic rate (P N) of leaves between two maize (Zea mays L) strains (Shuang 105 and 40×44) grown in the field were observed At several growth stages, P N of 40×44 was higher than that of Shuang 105 (from 103 to 325 %) Moreover, the strain 40×44 had a higher plant height, larger leaf area, lower chlorophyll content, and higher photochemical efficiency of photosystem 2 (PS2) (Fv/Fm and ΔF/Fm′) than strain Shuang 105 Shuang 105, which showed lower P N, had lower stomatal conductances (g s) but slightly higher intercellular CO2 concentrations (C i) than those of 40×44 Hence the differences in P N between the two strains did not result from the difference in g s, but probably from that in light reaction system

Handbook of Photosynthesis

Abstract: Preface Principles of Photosynthesis Mechanisms of Photosynthetic Oxygen Evolution and the Fundamental Hypotheses of Photosynthesis (Yuzeir Zeinalov) Thermoluminescence as a Tool in the study of Photosynthesis (Anil S. Bhagwat and Swapan K. Bhattachrjee) Biochemistry of Photosynthesis Chlorophyll Biosynthesis - A review (Benoit Schoefs and Martine Bertrand) Chloroplast Biogenesis 90, Probing the Relationship between Chlorophyll Biosynthetic Routes and the Topography of Chloroplast Biogenesis by Resonance Excitation Energy Transfer Determinations (Constantin A. Rebeiz, Karen J. Kopetz, and Vladimir L. Kolossov, USA) Protochlorophyllide Photoreduction - A review (Martine Bertrand and Benoit Schoefs) Formation and Demolition of Chloroplast during Leaf Ontogeny (Basanti Biswal) Role of Phosphorus in Photosynthetic Carbon Metabolism (Anna M. Rychter and I.M. Rao) Inhibition on Inactivation of Higher Plant Chloroplast Electron Transport (Rita Barr and Frederick L. Crane) Molecular Aspects of Photosynthesis: Photosystems, Photosynthetic Enzymes and Genes Photosystem I Structures and Functions (Teisuo Hiyama) Covalent Modification of Photosystem II Reaction-Center Polypeptides (Julian P. Whitelegge) Reactive Oxygen Species as Signaling Molecules Controlling Stress Adaptation in Plants (Tsanko Gechev, Ilya Gadjev, Stefan Dukiandjiev, and Ivan Minkov) Plastid Morphogenesis (Jan Hudak, Eliska Galova, and Lenka Zemanova) Plastid Proteases (Dennis E. Buetow) Supramolecular Organization of Water-Soluble Photosynthetic Enzymes Along the Thylakoid Membranes in Chloroplasts (Jayashree K. Sainis and Michael Melzer) Cytochrome C6 Genes in Cyanobacteria and Higher Plants (Kwok Ki Ho) Atmospheric and Environmental Factors Affecting Photosynthesis External and Internal Factors Responsible for Midday Depression of Photosynthesis (Da-Quan Xu and Yun-Kang Shen) Root Oxygen Depravation and the Reduction of Leaf Stomatal Aperture and Gas Exchange Effects on Photosynthesis (R.E. Sojka, H.D. Scott, and D.M. Oosterhuis) Rising Atmospheric CO2 and C4 Photosynthesis (Joseph C.V. Vu) Influence of High Light Intensity on Photosynthesis: Photoinhibition and Energy Dissipation (Robert Carpentier) Development of Functional Thylakoid Membranes: Regulation by Light and Hormones (Peter Nyitrai) Photosynthetic Pathways in Various Crop Plants Photosynthetic Carbon Assimilation of C3, C4 and CAM Pathways (Anil S. Bhagwat) Photosynthesis in Non-Typical C4 Species (Maria Valeria Lara and Carlos Santiago Andreo) Photosynthesis in Lower and Monocellular Plants Regulation of Phycobilisome Biosynthesis and Degradation in Cyanobacteria (Johannes Geiselmann, Jean Houmard, and Benoit Schoefs) Photosynthesis in Higher Plants Short-Term and Long-Term Regulation of Photosynthesis During Leaf Development (Dan Stessman, Martin Spalding, and Steven Rodermel) Recent Advances in Chloroplast Development in Higher Plants (Ilia D. Denev, Galina T. Yahubian, and Ivan N. Minkov) Photosynthesis in Different Plant Parts Photosynthesis in Leaf, Stem, Flower, and Fruit (Abdul Wahid, and Ejaz Rasul) Photosynthesis and Plant/Crop Productivity and Photosynthetic Products Photosynthetic Plant Productivity (Lubomir Natr and David W. Lawlor) Photosynthates Formation and Partitioning in Crop Plants (Alberto A. Iglesias and F.E. Podesta) Photosynthesis and Plant Genetics Crop Radiation Use Efficiency - Avenue for Genetic Improvement (G.V. Subbarao, O. Ito, and W.L. Berry) Physiological Perspectives on Improving Crop Adaptation to Drought - Justification for a Systemic Compnent-Based Approach (G.V. Subbarao, O. Ito, R. Serraj, J.H. Crouch, S. Tobita, K. Okada, C.T. Hash, R. Ortiz, and W.L. Berry) Photosynthetic Activity Measurements and Analysis of Photosynthetic Pigments Whole-Plant CO2 Exchange as a Non-Invasive Tool for Measuring Growth (Evangelos D. Leonardos, and Bernard Grodzinski) Approaches to Measuring Plant Photosynthetic Activity (Elena Masarovicova and Katarina Kralova) Analysis of Photosynthetic Pigments: An Update (Martine Bertrand, Jose L. Garrido, and Benoit Schoefs) Photosynthesis and Its Relationship with other Plant Physiological Processes Photosynthesis, Respiration, and the Limits to Growth (Bruce N. Smith, Heidi A. Summers, Emily A. Keller, and Tonya Thygerson) Nitrogen Assimilation and Carbon Metabolism (Alberto A. Iglesias, Maria J. Estrella, and Fernando Pieckenstain) Leaf Senescence (Agnieszka Mostowska) Photosynthesis Under Environmental Stress Conditions Photosynthesis in Plants under Stressful Conditions (Rama Shanker Dubey) Photosynthetic Response of Green Plants to Environmental Stress: Inhibition of Photosynthesis and Adaptational Mechanisms (Basanti Biswal) Salt and Drought Stress Effects on Photosynthesis, Enzyme Cohesion and High Turn Over Metabolite Shuttling, Essential for Functioning of Pathways, Is Impaired by Changes in Cytosolic Water Potential (B, Huchzermeyer and H.W. Koyro) Photosynthetic Carbon Metabolism of Crops under Salt Stress (Bruria Heuer) Photosynthesis under Drought Stress (Habib-ur-Rahman Athar and Muhammad Ashraf) Role of Plant Growth Regulators in Stomatal Limitation to Photosynthesis During Water Stress (Jana Pospisilova and Ian C. Dodd) Adverse Effects of UV-B Light on the Structure and Function of the Photosynthetic Apparatus (Imre Vass, Andras Szilard, and Cosmin Sicora) Heavy Metal Toxicity Induced Alterations in Photosynthetic Metabolism in Plants (Shruti Mishra and R.S, Dubey) Effects of Heavy Metals on Chlorophyll-Protein Complexes in Higher Plants: Causes and Consequences (Eva Sarvari) Photosynthesis in the Past, Present, and Future The Origin and Evolution of C4 Photosynthesis (Bruce N. Smith)

Chlorophyll fluorescence as a tool in cereal crop research

Abstract: Chlorophyll (Chl) fluorescence is a subtle reflection of primary reactions of photosynthesis. Intricate relationships between fluorescence kinetics and photosynthesis help our understanding of photosynthetic biophysical processes. Chl fluorescence technique is useful as a non-invasive tool in eco-physiological studies, and has extensively been used in assessing plant responses to environmental stress. The review gives a summary of some Chl fluorescence parameters currently used in studies of stress physiology of selected cereal crops, namely water stress, heat stress, salt stress, and chilling stress.

Photoinhibition of Photosynthesis: Role of Carotenoids in Photoprotection of Chloroplast Constituents

Abstract: Exposure of plants to irradiation, in excess to saturate photosynthesis, leads to reduction in photosynthetic capacity without any change in bulk pigment content. This effect is known as photoinhibition. Photoinhibition is followed by destruction of carotenoids (Cars), bleaching of chlorophylls (Chls), and increased lipid peroxidation due to formation of reactive oxygen species if the excess irradiance exposure continues. Photoinhibition of photosystem 2 (PS2) in vivo is often a photoprotective strategy rather than a damaging process. For sustainable maintenance of chloroplast function under high irradiance, the plants develop various photoprotective strategies. Cars perform essential photoprotective roles in chloroplasts by quenching the triplet Chl and scavenging singlet oxygen and other reactive oxygen species. Recently photoprotective role of xanthophylls (zeaxanthin) for dissipation of excess excitation energy under irradiance stress has been emphasised. The inter-conversion of violaxanthin (Vx) into zeaxanthin (Zx) in the light-harvesting complexes (LHC) serves to regulate photon harvesting and subsequent energy dissipation. De-epoxidation of Vx to Zx leads to changes in structure and properties of these xanthophylls which brings about significant structural changes in the LHC complex. This ultimately results in (1) direct quenching of Chl fluorescence by singlet-singlet energy transfer from Chl to Zx, (2) trans-thylakoid membrane mediated, ΔpH-dependent indirect quenching of Chl fluorescence. Apart from these, other processes such as early light-inducible proteins, D1 turnover, and several enzymatic defence mechanisms, operate in the chloroplasts, either for tolerance or to neutralise the harmful effect of high irradiance.