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1. Chemical processes for recovery and purification of high-purity uranium-234 from aged plutonium-238

Author

Tom D. Hylton, Miting Du, and Sharon M Robinson

Subjects
Materials science, Isotopes of uranium, Health, Toxicology and Mutagenesis, Radiochemistry, Ion chromatography, Public Health, Environmental and Occupational Health, chemistry.chemical_element, Uranium, 010403 inorganic & nuclear chemistry, 01 natural sciences, Pollution, 0104 chemical sciences, Analytical Chemistry, Separation process, Plutonium, chemistry.chemical_compound, Nuclear Energy and Engineering, Uranyl peroxide, chemistry, Uranium-234, Radiology, Nuclear Medicine and imaging, Spectroscopy, Plutonium-238
Abstract

This work describes a streamlined approach to the recovery and purification of 234U from aged 238Pu. Key modifications to conventional techniques are described that result in an efficient uranium and plutonium separation process that successfully produced tens of grams of ultrahigh purity 234U at Oak Ridge National Laboratory. A new processing scheme was developed using an anion exchange column run in a cycling mode with HNO3 media as the primary uranium purification process. This was followed with a uranyl peroxide precipitation step to purify and solidify the uranium before conversion to U3O8. Both the traditional uranyl peroxide precipitation method and a new cascade uranyl peroxide precipitation process were used for final purification of the 234U.

Published
2021

2. Production of Cf-252 and other transplutonium isotopes at Oak Ridge National Laboratory

Author

Susan L. Hogle, Julie G. Ezold, Emory D. Collins, Jon R. Garrison, Sharon M Robinson, and Dennis Benker

Subjects
Isotope, 010308 nuclear & particles physics, Radiochemistry, 0211 other engineering and technologies, chemistry.chemical_element, Californium, 02 engineering and technology, Actinide, Oak Ridge National Laboratory, 01 natural sciences, Berkelium, chemistry, 0103 physical sciences, Einsteinium, 021108 energy, Physical and Theoretical Chemistry
Abstract

In 1957 Glenn T. Seaborg conceived and advocated for the construction of the High Flux Isotope Reactor (HFIR) and the Transuranium Processing Plant (since then renamed the Radiochemical Engineering Development Center, or REDC) at Oak Ridge National Laboratory. Heavily shielded hot cells, glove boxes, and laboratories allow recovery of transuranium elements produced in substantial quantities. Seaborg’s vision of HFIR and REDC producing milligram quantities of berkelium, californium, and einsteinium has been fulfilled beginning in 1966 through May 2019 with 78 production campaigns yielding a cumulative totals of 1.2 g of 249Bk, 10.2 g of 252Cf, 39 mg of 253Es, and 15 pg of 257Fm. Notably, 252Cf is a neutron source used in many industrial applications including oil exploration; process control systems for the cement industry, coal analysis, and power production; sources to start nuclear reactors and perform nondestructive materials analyses; homeland security and national defense detection devices; and medical research. Isotopes made available through transplutonium production at HFIR/REDC have enabled scientists to study the nuclear properties and reactions, chemical properties, optical properties, and solid-state properties of transplutonium elements. Long-lived isotopes have served as targets in heavy ion accelerators to produce heavier elements leading to the discovery of 104Rf, 105Db, 106Sg, 113Nh, 114Fl, 115Mc, 116Lv, 117Ts, and 118Og. This paper reviews the evolution of the processing flowsheets to produce, separate, and purify transplutonium isotopes, which have evolved over 50 years of operation at HFIR and REDC, and summarizes directions of future work to improve the efficiency of the production operations.

Published
2020

3. Essential outcomes for COP26

Author

Kazuhiko Kobayashi, William W. L. Cheung, Stephen J. Thackeray, Julie LaRoche, Linda J. Beaumont, Andrew E. McKechnie, Rowan F. Sage, Josep Peñuelas, Yiqi Luo, Danielle A. Way, Miko U. F. Kirschbaum, Stephen P. Long, Carl J. Bernacchi, Xiaojuan Feng, Sharon A. Robinson, David J. Sugget, Pete Smith, Ivan A. Janssens, Richard T. Conant, Hefin Jones, Shilong Piao, Maria Byrne, and Francesca Cotrufo

Subjects
Global and Planetary Change, Ecology, Climate Change, Ecology (disciplines), MEDLINE, Sustainable Development, Chemistry, Geography, 05 Environmental Sciences, 06 Biological Sciences, Environmental Chemistry, Environmental planning, Biology, General Environmental Science
Published
2021

4. Civil disobedience movements such as School Strike for the Climate are raising public awareness of the climate change emergency

Author

M. Francesca Cotrufo, Steve Long, Carl J. Bernacchi, T. Hefin Jones, Yiqi Luo, Josep Peñuelas, Danielle A. Way, Ivan A. Janssens, Maria Byrne, Phillip Gienapp, Stephen J. Thackeray, Rowan F. Sage, Sharon A. Robinson, Kazuhiko Kobayashi, David J. Suggett, Rhea Bruno, Miko U. F. Kirschbaum, Pete Smith, Susan E. Hartley, and William W. L. Cheung

Subjects
Global and Planetary Change, Ecology, Climate Change, Climate change, Public administration, Raising (linguistics), Chemistry, Political science, Civil disobedience, Environmental Chemistry, Biology, General Environmental Science, Public awareness
Published
2019

5. Extending Fluspect to simulate xanthophyll driven leaf reflectance dynamics

Author

Wouter Verhoef, Christiaan van der Tol, Peiqi Yang, Zbyněk Malenovský, Nastassia Vilfan, Rhys Wyber, Sharon A. Robinson, Department of Water Resources, UT-I-ITC-WCC, and Faculty of Geo-Information Science and Earth Observation

Subjects
0106 biological sciences, Photosynthetic reaction centre, Materials science, 010504 meteorology & atmospheric sciences, Soil Science, Reflectance, Photosynthetic efficiency, Photochemical Reflectance Index, Xanthophyll cycle, 01 natural sciences, Atmospheric radiative transfer codes, SCOPE, Radiative transfer, Computers in Earth Sciences, Absorption (electromagnetic radiation), Chlorophyll fluorescence, 0105 earth and related environmental sciences, Remote sensing, chemistry.chemical_classification, Fluspect, Geology, Leaf chlorophyll fluorescence, 22/4 OA procedure, chemistry, Xanthophyll, ITC-ISI-JOURNAL-ARTICLE, PRI, Biological system, 010606 plant biology & botany
Abstract

The xanthophyll cycle regulates the energy flow to photosynthetic reaction centres of plant leaves. Changes in the de-epoxidation state (DEPS) of xanthophyll cycle pigments can be observed as changes in the leaf absorption of light with wavelengths between 500 to 570 nm. These spectral changes can be a good remote sensing indicator of the photosynthetic efficiency, and are traditionally quantified with a two-band physiologically based optical index, the Photochemical Reflectance Index (PRI). In this paper, we present an extension of the plant leaf radiative transfer model Fluspect (Fluspect-CX) that reproduces the spectral changes in a wide band of green reflectance: a radiative transfer analogy to the PRI. The idea of Fluspect-CX is to use in vivo specific absorption coefficients for two extreme states of carotenoids, representing the two extremes of the xanthophyll de-epoxidation, and to describe the intermediate states as a linear mixture of these two states. The ‘photochemical reflectance parameter’ (Cx) quantifies the relative proportion of the two states. Fluspect-CX simulates leaf chlorophyll fluorescence (ChlF) excitation-emission matrices, as well as reflectance (R) and transmittance (T) spectra as a function of leaf structure, pigment contents and Cx. We describe the calibration of the model and test its performance using various experimental datasets. Furthermore, we retrieved Cx from optical measurements of various datasets. The retrieved Cx correlates well with xanthophyll DEPS (R2 = 0.57), as well with non-photochemical quenching (NPQ) of fluorescence (R2 = 0.78). The correlation with NPQ enabled us to incorporate Fluspect-CX in the model SCOPE to scale the processes to the canopy level. Introducing the dynamic green reflectance into a radiative transfer model provides new means to study chlorophyll fluorescence and PRI dynamics on leaf and canopy scales, which is crucial for the remote sensing.

Published
2018

6. Photoprotection enhanced by red cell wall pigments in three East Antarctic mosses

Author

Melinda J. Waterman, Jessica Bramley-Alves, Sharon A. Robinson, Rebecca E. Miller, and Paul A. Keller

Subjects
0106 biological sciences, Time Factors, Ultraviolet Rays, Growing season, Antarctic Regions, Bryophyta, 010603 evolutionary biology, 01 natural sciences, Cell wall, UV-B-absorbing compounds, Anthocyanins, Schistidium antarctici, Antarctic moss, Botany, Spectroscopy, Fourier Transform Infrared, lcsh:QH301-705.5, Chromatography, High Pressure Liquid, Analysis of Variance, Ceratodon purpureus, Microscopy, Confocal, biology, Chemistry, Pigmentation, Pigments, Biological, 15. Life on land, biology.organism_classification, Bryum pseudotriquetrum, Moss, Plant Leaves, FT-IR, lcsh:Biology (General), Photoprotection, Bryophyte, Seasons, Desiccation, 010606 plant biology & botany, Research Article
Abstract

Background Antarctic bryophytes (mosses and liverworts) are resilient to physiologically extreme environmental conditions including elevated levels of ultraviolet (UV) radiation due to depletion of stratospheric ozone. Many Antarctic bryophytes synthesise UV-B-absorbing compounds (UVAC) that are localised in their cells and cell walls, a location that is rarely investigated for UVAC in plants. This study compares the concentrations and localisation of intracellular and cell wall UVAC in Antarctic Ceratodon purpureus, Bryum pseudotriquetrum and Schistidium antarctici from the Windmill Islands, East Antarctica. Results Multiple stresses, including desiccation and naturally high UV and visible light, seemed to enhance the incorporation of total UVAC including red pigments in the cell walls of all three Antarctic species analysed. The red growth form of C. purpureus had significantly higher levels of cell wall bound and lower intracellular UVAC concentrations than its nearby green form. Microscopic and spectroscopic analyses showed that the red colouration in this species was associated with the cell wall and that these red cell walls contained less pectin and phenolic esters than the green form. All three moss species showed a natural increase in cell wall UVAC content during the growing season and a decline in these compounds in new tissue grown under less stressful conditions in the laboratory. Conclusions UVAC and red pigments are tightly bound to the cell wall and likely have a long-term protective role in Antarctic bryophytes. Although the identity of these red pigments remains unknown, our study demonstrates the importance of investigating cell wall UVAC in plants and contributes to our current understanding of UV-protective strategies employed by particular Antarctic bryophytes. Studies such as these provide clues to how these plants survive in such extreme habitats and are helpful in predicting future survival of the species studied. Electronic supplementary material The online version of this article (10.1186/s40659-018-0196-1) contains supplementary material, which is available to authorized users.

Published
2019

7. Antarctic moss stress assessment based on chlorophyll content and leaf density retrieved from imaging spectroscopy data

Author

Zbyněk Malenovský, Sharon A. Robinson, Johanna D. Turnbull, and Arko Lucieer

Subjects
Chlorophyll, Chlorophyll a, Physiology, Imaging spectrometer, Antarctic Regions, Bryophyta, Plant Science, Atmospheric sciences, chemistry.chemical_compound, Imaging, Three-Dimensional, Stress, Physiological, Botany, Water content, Ceratodon purpureus, Dehydration, Geography, biology, Schistidium antarctici, Chlorophyll A, Spectrum Analysis, Water, Hyperspectral imaging, biology.organism_classification, Moss, Droughts, Plant Leaves, Imaging spectroscopy, chemistry, Environmental science
Abstract

Summary The health of several East Antarctic moss-beds is declining as liquid water availability is reduced due to recent environmental changes. Consequently, a noninvasive and spatially explicit method is needed to assess the vigour of mosses spread throughout rocky Antarctic landscapes. Here, we explore the possibility of using near-distance imaging spectroscopy for spatial assessment of moss-bed health. Turf chlorophyll a and b, water content and leaf density were selected as quantitative stress indicators. Reflectance of three dominant Antarctic mosses Bryum pseudotriquetrum, Ceratodon purpureus and Schistidium antarctici was measured during a drought-stress and recovery laboratory experiment and also with an imaging spectrometer outdoors on water-deficient (stressed) and well-watered (unstressed) moss test sites. The stress-indicating moss traits were derived from visible and near infrared turf reflectance using a nonlinear support vector regression. Laboratory estimates of chlorophyll content and leaf density were achieved with the lowest systematic/unsystematic root mean square errors of 38.0/235.2 nmol g−1 DW and 0.8/1.6 leaves mm−1, respectively. Subsequent combination of these indicators retrieved from field hyperspectral images produced small-scale maps indicating relative moss vigour. Once applied and validated on remotely sensed airborne spectral images, this methodology could provide quantitative maps suitable for long-term monitoring of Antarctic moss-bed health.

Published
2015

8. Antarctic Moss Biflavonoids Show High Antioxidant and Ultraviolet-Screening Activity

Author

Sharon A. Robinson, Melinda J. Waterman, Graham E. Ball, Rudi Hendra, Paul A. Keller, and Ari Satia Nugraha

Subjects
0106 biological sciences, 0301 basic medicine, Antioxidant, Coumaric Acids, Stereochemistry, Ultraviolet Rays, medicine.medical_treatment, Pharmaceutical Science, Antarctic Regions, Bryophyta, Biology, medicine.disease_cause, 01 natural sciences, Antioxidants, Analytical Chemistry, 03 medical and health sciences, Rutin, chemistry.chemical_compound, Phenols, Drug Discovery, medicine, Biflavonoids, Pharmacology, Atropisomer, Ceratodon purpureus, Molecular Structure, Organic Chemistry, Diastereomer, Australia, biology.organism_classification, Moss, Bryopsida, 030104 developmental biology, Complementary and alternative medicine, chemistry, Molecular Medicine, Propionates, Ultraviolet, 010606 plant biology & botany
Abstract

Ceratodon purpureus is a cosmopolitan moss that survives some of the harshest places on Earth: from frozen Antarctica to hot South Australian deserts. In a study on the survival mechanisms of the species, nine compounds were isolated from Australian and Antarctic C. purpureus. This included five biflavonoids, with complete structural elucidation of 1 and 2 reported here for the first time, as well as an additional four known phenolic compounds. Dispersion-corrected DFT calculations suggested a rotational barrier, leading to atropisomerism, resulting in the presence of diastereomers for compound 2. All isolates absorbed strongly in the ultraviolet (UV) spectrum, e.g., biflavone 1 (UV-A, 315-400 nm), which displayed the strongest radical-scavenging activity, 13% more efficient than the standard rutin; p-coumaric acid and trans-ferulic acid showed the highest UV-B (280-315 nm) absorption. The more complex and abundant 1 and 2 presumably have dual roles as both UV-screening and antioxidant compounds. They are strongly bound to Antarctic moss cell walls as well as located inside the cells of moss from both locations. The combined high stability and photoprotective abilities of these isolates may account for the known resilience of this species to UV-B radiation and its survival in some of the toughest locations in the world.

Published
2017

9. Remote monitoring of dynamic canopy photosynthesis with high time resolution light-induced fluorescence transients

Author

Michael B. Ashcroft, Sharon A. Robinson, Barry Osmond, Zbyněk Malenovský, and Rhys Wyber

Subjects
0106 biological sciences, 0301 basic medicine, Canopy, Chlorophyll, Photosystem II, Light, Physiology, Plant Science, Photosynthesis, Atmospheric sciences, 01 natural sciences, Fluorescence, Trees, 03 medical and health sciences, chemistry.chemical_compound, Sunlight, Persea, Plant physiology, 15. Life on land, Models, Theoretical, Ray, Plant Leaves, Light intensity, 030104 developmental biology, chemistry, 13. Climate action, Remote Sensing Technology, Environmental science, 010606 plant biology & botany
Abstract

Understanding the net photosynthesis of plant canopies requires quantifying photosynthesis in challenging environments, principally due to the variable light intensities and qualities generated by sunlight interactions with clouds and surrounding foliage. The dynamics of sunflecks and rates of change in light intensity at the beginning and end of sustained light (SL) events makes photosynthetic measurements difficult, especially when dealing with less accessible parts of plant foliage. High time resolved photosynthetic monitoring from pulse amplitude modulated (PAM) fluorometers has limited applicability due to the invasive nature of frequently applied saturating flashes. An alternative approach used here provides remote (

Published
2017

11. Probing functional and optical cross-sections of PSII in leaves during state transitions using fast repetition rate light induced fluorescence transients

Author

Barry J. Pogson, Wah Soon Chow, Sharon A. Robinson, and Barry Osmond

Subjects
Chlorophyll, 0106 biological sciences, 0301 basic medicine, Photosystem II Protein Complex, Plastoquinone, Context (language use), Plant Science, Biology, Thylakoids, 01 natural sciences, Fluorescence, Electron transport chain, Plant Leaves, 03 medical and health sciences, chemistry.chemical_compound, Electron transfer, 030104 developmental biology, chemistry, Thylakoid, Biophysics, Agronomy and Crop Science, Chlorophyll fluorescence, 010606 plant biology & botany, Photosystem
Abstract

Plants adjust the relative sizes of PSII and PSI antennae in response to the spectral composition of weak light favouring either photosystem by processes known as state transitions (ST), attributed to a discrete antenna migration involving phosphorylation of light-harvesting chlorophyll-protein complexes in PSII. Here for the first time we monitored the extent and dynamics of ST in leaves from estimates of optical absorption cross-section (relative PSII antenna size; aPSII). These estimates were obtained from in situ measurements of functional absorption cross-section (σPSII) and maximum photochemical efficiency of PSII (φPSII); i.e. aPSII = σPSII/φPSII (Kolber et al. 1998) and other parameters from a light induced fluorescence transient (LIFT) device (Osmond et al. 2017). The fast repetition rate (FRR) QA flash protocol of this instrument monitors chlorophyll fluorescence yields with reduced QA irrespective of the redox state of plastoquinone (PQ), as well as during strong ~1 s white light pulses that fully reduce the PQ pool. Fitting this transient with the FRR model monitors kinetics of PSII → PQ, PQ → PSI, and the redox state of the PQ pool in the ‘PQ pool control loop’ that underpins ST, with a time resolution of a few seconds. All LIFT/FRR criteria confirmed the absence of ST in antenna mutant chlorina-f2 of barley and asLhcb2–12 of Arabidopsis, as well as STN7 kinase mutants stn7 and stn7/8. In contrast, wild-type barley and Arabidopsis genotypes Col, npq1, npq4, OEpsbs, pgr5 bkg and pgr5, showed normal ST. However, the extent of ST (and by implication the size of the phosphorylated LHCII pool participating in ST) deduced from changes in aʹPSII and other parameters with reduced QA range up to 35%. Estimates from strong WL pulses in the same assay were only ~10%. The larger estimates of ST from the QA flash are discussed in the context of contemporary dynamic structural models of ST involving formation and participation of PSII and PSI megacomplexes in an ‘energetically connected lake’ of phosphorylated LHCII trimers (Grieco et al. 2015). Despite the absence of ST, asLhcb2-12 displays normal wild-type modulation of electron transport rate (ETR) and the PQ pool during ST assays, reflecting compensatory changes in antenna LHCIIs in this genotype. Impaired LHCII phosphorylation in stn7 and stn7/8 accelerates ETR from PSII →PQ, over-reducing the PQ pool and abolishing the yield difference between the QA flash and WL pulse, with implications for photochemical and thermal phases of the O-J-I-P transient.

Published
2019

12. Integrating Transient Heterogeneity of Non-Photochemical Quenching in Shade-Grown Heterobaric Leaves of Avocado (Persea americana L.): Responses to CO2 Concentration, Stomatal Occlusion, Dehydration and Relative Humidity

Author

Kotaro Takayama, Diana H. King, Sharon A. Robinson, and Barry Osmond

Subjects
Chlorophyll, Lutein, Light, Petrolatum, Physiology, Plant Science, Xanthophylls, Photosynthesis, Electron Transport, chemistry.chemical_compound, Botany, Relative humidity, chemistry.chemical_classification, Quenching (fluorescence), Dehydration, Persea, Non-photochemical quenching, Water, Humidity, Plant Transpiration, Cell Biology, General Medicine, Carbon Dioxide, Plant Leaves, Chloroplast, chemistry, Xanthophyll, Plant Stomata, Biophysics, Violaxanthin
Abstract

Long-lived shade leaves of avocado had extremely low rates of photosynthesis. Gas exchange measurements of photosynthesis were of limited use, so we resorted to Chl fluorescence imaging (CFI) and spot measurements to evaluate photosynthetic electron transport rates (ETRs) and non-photochemical quenching (NPQ). Imaging revealed a remarkable transient heterogeneity of NPQ during photosynthetic induction in these hypostomatous, heterobaric leaves, but was adequately integrated by spot measurements, despite long-lasting artifacts from repeated saturating flashes during assays. Major veins (mid-vein, first- and second-order veins) defined areas of more static large-scale heterogeneous NPQ, with more dynamic small-scale heterogeneity most strongly expressed in mesophyll cells between third- and fourth-order veins. Both responded to external CO2 concentration ([CO2]), occlusion of stomata with Vaseline™, leaf dehydration and relative humidity (RH). We interpreted these responses in terms of independent behavior of stomata in adjacent areoles that was largely expressed through CO2-limited photosynthesis. Heterogeneity was most pronounced and prolonged in the absence of net CO2 fixation in 100 p.p.m. [CO2] when respiratory and photorespiratory CO2 cycling constrained the inferred ETR to ~75% of values in 400 or 700 p.p.m. [CO2]. Likewise, sustained higher NPQ under Vaseline™, after dehydration or at low RH, also restricted ETR to ~75% of control values. Low NPQ in chloroplast-containing cells adjacent to major veins but remote from stomata suggested internal sources of high [CO2] in these tissues.

Published
2013

13. From ecophysiology to phenomics: some implications of photoprotection and shade–sun acclimation in situ for dynamics of thylakoids in vitro

Author

Britta Förster, Shizue Matsubara, Sharon A. Robinson, Barry J. Pogson, Barry Osmond, Melinda J. Waterman, and Brian E. S. Gunning

Subjects
Chlorophyll, Ecophysiology, Acclimatization, Xanthophylls, Photosynthetic efficiency, Biology, Photosynthesis, Thylakoids, Fluorescence, General Biochemistry, Genetics and Molecular Biology, Phenomics, Botany, Ecosystem, chemistry.chemical_classification, Persea, Photosystem II Protein Complex, Articles, Darkness, Photochemical Processes, Plant Leaves, chemistry, Xanthophyll, Photoprotection, Thylakoid, Sunlight, General Agricultural and Biological Sciences, Oxidation-Reduction
Abstract

Half a century of research into the physiology and biochemistry of sun–shade acclimation in diverse plants has provided reality checks for contemporary understanding of thylakoid membrane dynamics. This paper reviews recent insights into photosynthetic efficiency and photoprotection from studies of two xanthophyll cycles in old shade leaves from the inner canopy of the tropical trees Inga sapindoides and Persea americana (avocado). It then presents new physiological data from avocado on the time frames of the slow coordinated photosynthetic development of sink leaves in sunlight and on the slow renovation of photosynthetic properties in old leaves during sun to shade and shade to sun acclimation. In so doing, it grapples with issues in vivo that seem relevant to our increasingly sophisticated understanding of Δ pH-dependent, xanthophyll-pigment-stabilized non-photochemical quenching in the antenna of PSII in thylakoid membranes in vitro .

Published
2012

14. Responses of plants in polar regions to UVB exposure: a meta-analysis

Author

Kevin K. Newsham and Sharon A. Robinson

Subjects
chemistry.chemical_classification, Global and Planetary Change, Biomass (ecology), integumentary system, Ecology, Specific leaf area, fungi, Irradiance, food and beverages, Biology, Photosynthesis, Thallus, chemistry.chemical_compound, chemistry, Chlorophyll, Botany, Environmental Chemistry, Ecotoxicology, skin and connective tissue diseases, Carotenoid, General Environmental Science
Abstract

We report a meta-analysis of data from 34 field studies into the effects of ultraviolet B (UVB) radiation on Arctic and Antarctic bryophytes and angiosperms. The studies measured plant responses to decreases in UVB radiation under screens, natural fluctuations in UVB irradiance or increases in UVB radiation applied from fluorescent UV lamps. Exposure to UVB radiation was found to increase the concentrations of UVB absorbing compounds in leaves or thalli by 7% and 25% ( expressed on a mass or area basis, respectively). UVB exposure also reduced aboveground biomass and plant height by 15% and 10%, respectively, and increased DNA damage by 90%. No effects of UVB exposure were found on carotenoid or chlorophyll concentrations, net photosynthesis, F-v/F-m or Phi(PSII), belowground or total biomass, leaf mass, leaf area or specific leaf area (SLA). The methodology adopted influenced the concentration of UVB absorbing compounds, with screens and natural fluctuations promoting significant changes in the concentrations of these pigments, but lamps failing to elicit a response. Greater reductions in leaf area and SLA, and greater increases in concentrations of carotenoids, were found in experiments based in Antarctica than in those in the Arctic. Bryophytes typically responded in the same way as angiosperms to UVB exposure. Regression analyses indicated that the percentage difference in UVB dose between treatment and control plots was positively associated with concentrations of UVB absorbing compounds and carotenoids, and negatively so with aboveground biomass and leaf area. We conclude that, despite being dominated by bryophytes, the vegetation of polar regions responds to UVB exposure in a similar way to higher plant-dominated vegetation at lower latitudes. In broad terms, the exposure of plants in these regions to UVB radiation elicits the synthesis of UVB absorbing compounds, reduces aboveground biomass and height, and increases DNA damage.

Published
2009

15. PRELIMINARY INVESTIGATIONS OF PIGMENT RESPONSES TO PHYLLOXERA INFESTATION

Author

A.L. Blanchfield, Sharon A. Robinson, and Kevin S. Powell

Subjects
biology, fungi, food and beverages, Horticulture, medicine.disease_cause, biology.organism_classification, law.invention, chemistry.chemical_compound, Pigment, Daktulosphaira vitifoliae, chemistry, law, Chlorophyll, visual_art, Infestation, Quarantine, medicine, visual_art.visual_art_medium, Vitis vinifera, Phylloxera, Field conditions
Abstract

Early detection of grape phylloxera (Daktulosphaira vitifoliae) infestation is vital for the implementation of post-outbreak quarantine in Australia. Remote sensing systems exploit changes in leaf pigment content associated with plant stress and offer a real possibility of a phylloxera-specific detection system. Pre-visual, symptomatic changes in the pigment content of phylloxera-infested grapevine leaves were investigated using high performance liquid chromatography (HPLC) as a potential aid to improve current phylloxera detection methods. A glasshouse trial was established to characterize the response of two grapevine varieties, Vitis vinifera ‘Cabernet Sauvignon’ and ‘Shiraz’, to phylloxera infestation, in a controlled environment. Field trials were conducted on two grapevine varieties, V. vinifera ‘Cabernet Sauvignon’ and ‘Pinot Noir’, at two sites, to compare grapevine response to phylloxera infestation under field conditions. A reduction in the leaf chlorophyll content and an increase in photoprotective pigment concentrations were observed in leaves of phylloxera-infested grapevines compared to uninfested vines. With further investigation, the identification of grapevine leaf pigment responses to phylloxera infestation may prove useful for the rapid, non-invasive, detection of phylloxera in commercial vineyards.

Published
2007

16. Evaluation of Tritium Content and Release from Pressurized Water Reactor Fuel Cladding

Author

Marc Rhea Chattin, J. M. Giaquinto, Robert Thomas Jubin, and Sharon M Robinson

Subjects
Zirconium, Materials science, Waste management, Pressurized water reactor, Radiochemistry, chemistry.chemical_element, Cladding (fiber optics), Spent nuclear fuel, law.invention, chemistry.chemical_compound, chemistry, law, Uranium oxide, Tritium, Light-water reactor, Burnup
Abstract

It is expected that tritium pretreatment will be required in future reprocessing plants to prevent the release of tritium to the environment (except for long-cooled fuels). To design and operate future reprocessing plants in a safe and environmentally compliant manner, the amount and form of tritium in the used nuclear fuel (UNF) must be understood and quantified. Tritium in light water reactor (LWR) fuel is dispersed between the fuel matrix and the fuel cladding, and some tritium may be in the plenum, probably as tritium labelled water (THO) or T2O. In a standard processing flowsheet, tritium management would be accomplished by treatment of liquid streams within the plant. Pretreating the fuel prior to dissolution to release the tritium into a single off-gas stream could simplify tritium management, so the removal of tritium in the liquid streams throughout the plant may not be required. The fraction of tritium remaining in the cladding may be reduced as a result of tritium pretreatment. Since Zircaloy® cladding makes up roughly 25% by mass of UNF in the United States, processes are being considered to reduce the volume of reprocessing waste for Zircaloy® clad fuel by recovering the zirconium from the cladding for reuse. Thesemore » recycle processes could release the tritium in the cladding. For Zircaloy-clad fuels from light water reactors, the tritium produced from ternary fission and other sources is expected to be divided between the fuel, where it is generated, and the cladding. It has been previously documented that a fraction of the tritium produced in uranium oxide fuel from LWRs can migrate and become trapped in the cladding. Estimates of the percentage of tritium in the cladding typically range from 0–96%. There is relatively limited data on how the tritium content of the cladding varies with burnup and fuel history (temperature, power, etc.) and how pretreatment impacts its release. To gain a better understanding of how tritium in cladding will behave during processing, scoping tests are being performed to determine the tritium content in the cladding pre- and post-tritium pretreatment. Samples of Surry-2 and H.B. Robinson pressurized water reactor cladding were heated to 1100–1200°C to oxidize the zirconium and release all of the tritium in the cladding sample. Cladding samples were also heated within the temperature range of 480–600oC expected for standard air tritium pretreatment systems, and to a slightly higher temperature (700oC) to determine the impact of tritium pretreatment on tritium release from the cladding. The tritium content of the Surry-2 and H.B. Robinson cladding was measured to be ~234 and ~500 µCi/g, respectively. Heating the Surry-2 cladding at 500°C for 24 h removed ~0.2% of the tritium from the cladding, and heating at 700°C for 24 h removed ~9%. Heating the H.B. Robinson cladding at 700°C for 24 h removed ~11% of the tritium. When samples of the Surry-2 and H.B. Robinson claddings were heated at 700°C for 96 h, essentially all of the tritium in the cladding was removed. However, only ~3% of the tritium was removed when a sample of Surry-2 cladding was heated at 600°C for 96 h. These data indicate that the amount of tritium released from tritium pretreatment systems will be dependent on both the operating temperature and length of time in the system. Under certain conditions, a significant fraction of the tritium could remain bound in the cladding and would need to be considered in operations involving cladding recycle.« less

Published
2015

17. Ultraviolet B screening potential is higher in two cosmopolitan moss species than in a co-occurring Antarctic endemic moss: implications of continuing ozone depletion

Author

Jodie L. Dunn and Sharon A. Robinson

Subjects
Global and Planetary Change, Ceratodon purpureus, integumentary system, Ecology, biology, Schistidium antarctici, Growing season, biology.organism_classification, Moss, Ozone depletion, Pigment, chemistry.chemical_compound, chemistry, visual_art, Anthocyanin, Botany, visual_art.visual_art_medium, Environmental Chemistry, sense organs, Grimmia antarctici, skin and connective tissue diseases, General Environmental Science
Abstract

Concentrations of UVB (ultraviolet B) absorbing pigments and anthocyanins were measured in three moss species, over a summer growing season in Antarctica. Pigment concentrations were compared with a range of climatic variables to determine if there was evidence that pigments were induced by UVB radiation, or other environmental parameters, and secondly if there were differences between species in their pigment responses. Significant seasonal differences in the potential UVB screening pigments were found, with the two cosmopolitan species Bryum pseudotriquetrum and Ceratodon purpureus appearing better protected from the potentially damaging effects of ozone depletion than the Antarctic endemic Schistidium antarctici. B. pseudotriquetrum accumulated the highest concentration of UVB screening pigments and showed positive associations between UVB radiation and both UVB absorbing and anthocyanin pigments. The negative associations between water availability measures and UVB absorbing and anthocyanin pigments also suggest that B. pseudotriquetrum is well protected in the desiccated state. This could offer B. pseudotriquetrum an advantage over the other species when high UVB radiation coincides with low temperatures and low water availability, thus limiting physiological activity and consequently, active photoprotective and repair mechanisms. As these pigments could act as either direct UVB screens or antioxidants, the results suggest that B. pseudotriquetrum is best equipped to deal with the negative effects of increased exposure to UVB radiation due to ozone depletion. The most exposed species, C. purpureus, has intermediate and stable concentrations of UVB absorbing pigments suggesting it may rely on constitutive UVB screens. Anthocyanin pigments were more responsive in this species and could offer increased antioxidant protection during periods of high UVB radiation. S. antarctici appears poorly protected and showed no evidence of any UV photoprotective response, providing additional evidence that this endemic is more vulnerable to climate change.

Published
2006

18. Impact of changes in natural ultraviolet radiation on pigment composition, physiological and morphological characteristics of the Antarctic moss, Grimmia antarctici

Author

Sharon A. Robinson, Johanna D. Turnbull, and Catherine E. Lovelock

Subjects
Global and Planetary Change, Ecology, biology, Schistidium antarctici, biology.organism_classification, Photosynthesis, Moss, Ozone depletion, chemistry.chemical_compound, chemistry, Chlorophyll, Botany, Environmental Chemistry, Bryophyte, Grimmia antarctici, Chlorophyll fluorescence, General Environmental Science
Abstract

The impact of ambient ultraviolet (UV)-B radiation on the endemic bryophyte, Grimmia antarctici, was studied over 14 months in East Antarctica. Over recent decades, Antarctic plants have been exposed to the largest relative increase in UV-B exposure as a result of ozone depletion. We investigated the effect of reduced UV and visible radiation on the pigment concentrations, surface reflectance and physiological and morphological parameters of this moss. Plexiglass screens were used to provide both reduced UV levels (77%) and a 50% decrease in total radiation. The screen combinations were used to separate UV photoprotective from visible photoprotective strategies, because these bryophytes are growing in relatively high light environments compared with many mosses. G. antarctici was affected negatively by ambient levels of UV radiation. Chlorophyll content was significantly lower in plants grown under near-ambient UV, while the relative proportions of photoprotective carotenoids, especially beta-carotene and zeaxanthin, increased. However, no evidence for the accumulation of UV-B-absorbing pigments in response to UV radiation was observed. Although photosynthetic rates were not affected, there was evidence of UV effects on morphology. Plants that were shaded showed fewer treatment responses and these were similar to the natural variation observed between moss growing on exposed microtopographical ridges and in more sheltered valleys within the turf. Given that other Antarctic bryophytes possess UV-B-absorbing pigments which should offer better protection under ambient UV-B radiation, these findings suggest that G. antarctici may be disadvantaged in some settings under a climate with continuing high levels of springtime UV-B radiation.

Published
2005

19. Surface reflectance properties of Antarctic moss and their relationship to plant species, pigment composition and photosynthetic function

Author

Sharon A. Robinson and Catherine E. Lovelock

Subjects
Ceratodon purpureus, Photoinhibition, biology, Physiology, Red edge, Plant Science, biology.organism_classification, Photochemical Reflectance Index, Moss, chemistry.chemical_compound, chemistry, Chlorophyll, Botany, Grimmia antarctici, Chlorophyll fluorescence
Abstract

In this study the variations in surface reflectance properties and pigment concentrations of Antarctic moss over species, sites, microtopography and with water content were investigated. It was found that species had significantly different surface reflectance properties, particularly in the region of the red edge (approximately 700 nm), but this did not correlate strongly with pigment concentrations. Surface reflectance of moss also varied in the visible region and in the characteristics of the red edge over different sites. Reflectance parameters, such as the photochemical reflectance index (PRI) and cold hard band were useful discriminators of site, microtopographic position and water content. The PRI was correlated both with the concentrations of active xanthophyll-cycle pigments and the photosynthetic light use efficiency, F-v/F-m, measured using chlorophyll fluorescence. Water content of moss strongly influenced the amplitude and position of the red-edge as well as the PRI, and may be responsible for observed differences in reflectance properties for different species and sites. All moss showed sustained high levels of photoprotective xanthophyll pigments, especially at exposed sites, indicating moss is experiencing continual high levels of photochemical stress.

Published
2002

20. Milestone report - M4FT-14OR0302102b - Evaluation of Tritium Content and Release from Surry-2 Fuel Cladding

Author

Marc Rhea Chattin, J. M. Giaquinto, Sharon M Robinson, and Robert Thomas Jubin

Subjects
Zirconium, Materials science, Nuclear engineering, Radiochemistry, Pressurized water reactor, chemistry.chemical_element, Fraction (chemistry), Atmospheric temperature range, Cladding (fiber optics), Spent nuclear fuel, law.invention, Tritium release, chemistry, law, Tritium
Abstract

To design and operate future reprocessing plants in a safe and environmentally compliant manner, the amount and form of tritium in the used nuclear fuel (UNF) must be understood and quantified.To gain a better understanding of how tritium in cladding will behave during processing, scoping tests are being performed to determine the tritium content in the cladding pre- and post-tritium pretreatment. A sample of Surry-2 pressurized water reactor (PWR) cladding was heated to 1100–1200°C to oxidize the zirconium and release all of the tritium in the cladding sample. The tritium content was measured to be ~240 µCi/g. Cladding samples were heated to 500oC, which is within the temperature range (480 - 600oC) expected for standard air tritium pretreatment systems, and to a slightly higher temperature (700oC) to determine the impact of tritium pretreatment on tritium release from the cladding. Heating at 500°C for 24 hr removes ~0.2% of the tritium from the cladding, and heating at 700°C for 24 hr removes ~9%. Thus, a significant fraction of the tritium remains bound in the cladding and must be considered in operations involving cladding recycle.

Published
2014

21. Solar ultraviolet radiation in a changing climate

Author

Barbara Sulzberger, Sharon A. Robinson, Donat-P. Häder, Robyn M. Lucas, Janet F. Bornman, Richard G. Zepp, Nigel D. Paul, Sasha Madronich, Carlos L. Ballaré, Mary Norval, Craig E. Williamson, Richard McKenzie, Amy T. Austin, and Alkiviadis F. Bais

Subjects
Ozone, Meteorology, CLIMATE CHANGE, Biosphere, Climate change, Environmental Science (miscellaneous), MONTREAL PROTOCOL, Atmospheric sciences, Ozone depletion, Solar ultraviolet radiation, TERRESTRIAL ECOSYSTEMS, Ciencias de la Tierra y relacionadas con el Medio Ambiente, chemistry.chemical_compound, chemistry, Ciencias Medioambientales, Ozone layer, Montreal Protocol, Environmental science, Risks and benefits, OZONE DEPLETION, Social Sciences (miscellaneous), CIENCIAS NATURALES Y EXACTAS
Abstract

The projected large increases in damaging ultraviolet radiation as a result of global emissions of ozone-depleting substances have been forestalled by the success of the Montreal Protocol. New challenges are now arising in relation to climate change. We highlight the complex interactions between the drivers of climate change and those of stratospheric ozone depletion, and the positive and negative feedbacks among climate, ozone and ultraviolet radiation. These will result in both risks and benefits of exposure to ultraviolet radiation for the environment and human welfare. This Review synthesizes these new insights and their relevance in a world where changes in climate as well as in stratospheric ozone are altering exposure to ultraviolet radiation with largely unknown consequences for the biosphere. Fil: Williamson, Craig E.. Miami University. Department of Biology; Estados Unidos Fil: Zepp, Richard G.. United States Environmental Protection Agency; Estados Unidos Fil: Lucas, Robyn M.. University of Western Australia. Telethon Kids Institute; Australia. Australian National University. National Centre for Epidemiology and Population Health; Australia Fil: Madronich, Sasha. National Center for Atmospheric Research; Estados Unidos Fil: Austin, Amy Theresa. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Instituto de Investigaciones Fisiológicas y Ecológicas Vinculadas a la Agricultura; Argentina Fil: Ballare, Carlos Luis. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Instituto de Investigaciones Fisiológicas y Ecológicas Vinculadas a la Agricultura; Argentina Fil: Norval, Mary. University of Edinburgh Medical School. Biomedical Science; Reino Unido Fil: Sulzberger, Barbara. Swiss Federal Institute of Aquatic Science and Technology; Suiza Fil: Bais, Alkiviadis F.. Aristotle University of Thessaloniki. Laboratory of Atmospheric Physics; Grecia Fil: McKenzie, Richard L.. National Institute of Water and Atmospheric Research; Nueva Zelanda Fil: Robinson, Sharon A.. University of Wollongong. School of Biological Sciences. Institute for Conservation Biology and Environmental Management; Australia Fil: Häder, Donat P.. Fil: Paul, Nigel D.. Lancaster University. Lancaster Environment Centre; Reino Unido Fil: Bornman, Janet F.. Curtin University. International Institute of Agri-Food Security; Australia

Published
2014

22. Effects of light on respiration and oxygen isotope fractionation in soybean cotyledons

Author

Miquel A. Gonzalez-Meler, Miquel Ribas-Carbo, Sharon A. Robinson, James N. Siedow, Adrian M. Lennon, Joseph A. Berry, and L. Giles

Subjects
Alternative oxidase, Physiology, chemistry.chemical_element, Plant Science, Fractionation, Biology, Oxygen, Isotope fractionation, Biochemistry, chemistry, Darkness, Respiration, Alternative complement pathway, Flux (metabolism)
Abstract

Light effects on electron flow through the cyanide-resistant respiratory pathway, oxygen isotope fractionation and total respiration were studied in soybean (Glycine max L.) cotyledons. During the first 12 h of illumination there was an increase in both electron partitioning through the alternative pathway and oxygen isotope fractionation by the alternative oxidase. The latter probably indicates a change in the properties of the alternative oxidase. There was no engagement of the alternative oxidase in darkness and its fractionation was 27‰. In green cotyledons 60% of the respiration flux was through the alternative pathway and the alternative oxidase fractionation was 32‰. Exposing previously illuminated tissue to continuous darkness induced a decrease in the electron partitioning through the alternative pathway. However, this decrease was not directly linked with the low cellular sugar concentration resulting from the lack of light because 5 min of light every 12 h was sufficient to keep the alternative pathway engaged to the same extent as plants grown under control conditions.

Published
2000

23. Internal and external photoprotection in developing leaves of the CAM plant Cotyledon orbiculata

Author

D. H. Barker, G. G. R. Seaton, and Sharon A. Robinson

Subjects
chemistry.chemical_classification, Wax, Photoinhibition, biology, Physiology, Plant Science, biology.organism_classification, Photosynthesis, Photosynthetic capacity, chemistry.chemical_compound, Cotyledon orbiculata, chemistry, Photoprotection, visual_art, Chlorophyll, Xanthophyll, Botany, visual_art.visual_art_medium
Abstract

Leaves of the CAM plant Cotyledon orbiculata produced a dense epidermal wax which decreased the absorption of light, possibly functioning as an external photoprotective mechanism (Robinson et al. 1993). However, developing leaves did not accumulate wax until after 21 d with full wax coating not achieved until at least 35 d. In addition, young leaves had lower rates of electron transport than mature leaves. Leaf development therefore occurs at higher incident PFD than that experienced by the mature leaves, and, for young leaves, can lead to an increase in the proportion of light energy which is excess to requirements and must be dissipated non-photochemically. Changes in the photosynthetic capacity, PSII efficiency, rate of energy dissipation, and the content of chlorophyll (Chl), carotenoids, wax and anthocyanins were followed in developing leaves of C. orbiculata in an attempt to elucidate the relative importance of the various photoprotective mechanisms during leaf ontogeny. The largest pools of xanthophyll cycle pigments (on a Chl basis) were found in the waxless, young leaves and were correlated with greater levels of energy dissipation activity. The importance of xanthophyll cycle-dependent energy dissipation in young C. orbiculata leaves prior to development of a reflective wax covering, and full photosynthetic capacity which for CAM plants includes appreciable nocturnal acid accumulation, is discussed. Also, we consider the possibility that anthocyanin pigments in the upper and lower epidermis may increase reflectivity and act as external photoprotectants.

Published
1997

24. Photosystem II Regulation and Dynamics of the Chloroplast D1 Protein in Arabidopsis Leaves during Photosynthesis and Photoinhibition

Author

C. B. Osmond, A. W. Russell, Sharon A. Robinson, G. G. R. Seaton, Jan M. Anderson, C. Critchley, Wah Soon Chow, and Linda A. Franklin

Subjects
chemistry.chemical_classification, Photoinhibition, Photosystem II, Physiology, Antheraxanthin, DCMU, Plant Science, Biology, Photosynthesis, chemistry.chemical_compound, Biochemistry, chemistry, Xanthophyll, Photoprotection, Genetics, Chlorophyll fluorescence, Research Article
Abstract

Arabidopsis thaliana leaves were examined in short-term (1 h) and long-term (10 h) irradiance experiments involving growth, saturating and excess light. Changes in photosynthetic and chlorophyll fluorescence parameters and in populations of functional photosystem II (PSII) centers were independently measured. Xanthophyll pigments, 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU)-binding sites, the amounts of D1 protein, and the rates of D1 protein synthesis were determined. These comprehensive studies revealed that under growth or light-saturating conditions, photosynthetic parameters remained largely unaltered. Photoprotection occurred at light saturation indicated by a dark-reversible increase in non-photochemical quenching accompanied by a 5-fold increase in antheraxanthin and zeaxanthin. No consistent change in the concentrations of functional PSII centers, DCMU-binding sites, or D1 protein pool size occurred. D1 protein synthesis was rapid. In excess irradiance, quantum yield of O2 evolution and the efficiency of PSII were reduced, associated with a 15- to 20-fold increase in antheraxanthin and zeaxanthin and a sustained increase in nonphotochemical quenching. A decrease in functional PSII center concentration occurred, followed by a decline in the concentration of D1 protein; the latter, however, was not matched by a decrease in DCMU-binding sites. In the most extreme treatments, DCMU-binding site concentration remained 2 times greater than the concentration of D1 protein recognized by antibodies. D1 protein synthesis rates remained unaltered at excess irradiances.

Published
1995

25. Effects of solar ultraviolet radiation on terrestrial ecosystems. Patterns, mechanisms, and interactions with climate change

Author

Stephen D. Flint, Carlos L. Ballaré, Sharon A. Robinson, Janet F. Bornman, and Martyn M. Caldwell

Subjects
Ozone, Ultraviolet Rays, Otras Ciencias Biológicas, Climate Change, ved/biology.organism_classification_rank.species, Climate change, clouds, Atmospheric sciences, Atmosphere, Ciencias Biológicas, chemistry.chemical_compound, Radiation Monitoring, Terrestrial plant, Solar Energy, Animals, Humans, Ecosystem, Physical and Theoretical Chemistry, Trophic level, ved/biology, terrestrial ecosystems, Plants, Ozone depletion, UV, climate change, chemistry, Environmental science, Terrestrial ecosystem, CIENCIAS NATURALES Y EXACTAS
Abstract

Ultraviolet radiation (UV) is a minor fraction of the solar spectrum reaching the ground surface. In this assessment we summarize the results of previous work on the effects of the UV-B component (280-315 nm) on terrestrial ecosystems, and draw attention to important knowledge gaps in our understanding of the interactive effects of UV radiation and climate change. We highlight the following points: (i) The effects of UV-B on the growth of terrestrial plants are relatively small and, because the Montreal Protocol has been successful in limiting ozone depletion, the reduction in plant growth caused by increased UV-B radiation in areas affected by ozone decline since 1980 is unlikely to have exceeded 6%. (ii) Solar UV-B radiation has large direct and indirect (plant-mediated) effects on canopy arthropods and microorganisms. Therefore, trophic interactions (herbivory, decomposition) in terrestrial ecosystems appear to be sensitive to variations in UV-B irradiance. (iii) Future variations in UV radiation resulting from changes in climate and land-use may have more important consequences on terrestrial ecosystems than the changes in UV caused by ozone depletion. This is because the resulting changes in UV radiation may affect a greater range of ecosystems, and will not be restricted solely to the UV-B component. (iv) Several ecosystem processes that are not particularly sensitive to UV-B radiation can be strongly affected by UV-A (315-400 nm) radiation. One example is the physical degradation of plant litter. Increased photodegradation (in response to reduced cloudiness or canopy cover) will lead to increased carbon release to the atmosphere via direct and indirect mechanisms. Fil: Ballare, Carlos Luis. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Instituto de Investigaciones Fisiológicas y Ecológicas Vinculadas a la Agricultura. Universidad de Buenos Aires. Facultad de Agronomía; Argentina Fil: Caldwell, M. M.. State University of Utah; Estados Unidos Fil: Flint, S. D.. State University of Utah; Estados Unidos Fil: Robinson, S. A.. University Of Wollongong; Australia Fil: Bornman, J. F.. University of Waikato; Nueva Zelanda

Published
2011

26. Measurements of the Engagement of Cyanide-Resistant Respiration in the Crassulacean Acid Metabolism Plant Kalanchoë daigremontiana with the Use of On-Line Oxygen Isotope Discrimination

Author

C. Barry Osmond, James N. Siedow, Sharon A. Robinson, Miquel Ribas-Carbo, Joseph A. Berry, Larry Giles, and Dan Yakir

Subjects
biology, Physiology, chemistry.chemical_element, Plant Science, Fractionation, Kalanchoe, biology.organism_classification, Electron transport chain, Oxygen, Biochemistry, chemistry, Glycine, Respiration, Genetics, Crassulacean acid metabolism, Flux (metabolism)
Abstract

Discrimination against 18O during dark respiration in tissues of Kalanchoe daigremontiana, Medicago sativa, and Glycine max was measured using an on-line system that enabled direct measurements of the oxygen fractionation of samples in a gas-phase leaf disk electrode unit. Discrimination factors for cytochrome pathway respiration were 18.6 to 19.8%o for all tissues. However, discrimination in cyanide-resistant respiration was significantly higher in green tissues (30.4-31.2%o) compared with nongreen tissues (25.3-25.9%o). Using these discrimination factors, the partitioning of electron transport to these pathways was calculated from measurements of discrimination in the absence of inhibitors. Changes in flux through the alternative pathway were measured during the light and dark phases of Crassulacean acid metabolism in leaf disks of K. daigremontiana. The flux of electrons through the alternative pathway was higher during deacidification than during the other phases of Crassulacean acid metabolism. The increase in alternative pathway electron flux accounted for all of the increased respiration in the light phase. Despite this increase, simultaneous measurements of malate concentration and respiratory flux confirm that only a small proportion of the total malate decarboxylation occurs in the mitochondria.

Published
1992

27. Regulation of Glutamate Dehydrogenase Activity in Relation to Carbon Limitation and Protein Catabolism in Carrot Cell Suspension Cultures

Author

Sharon A. Robinson, G. R. Stewart, and Richard Phillips

Subjects
chemistry.chemical_classification, Physiology, Catabolism, Glutamate dehydrogenase, Plant Science, Biology, Amino acid, Citric acid cycle, chemistry.chemical_compound, Protein catabolism, chemistry, Biochemistry, Genetics, Specific activity, Ammonium, Derepression, Metabolism and Enzymology
Abstract

Glutamate dehydrogenase (GDH) specific activity and function have been studied in cell suspension cultures of carrot (Daucus carota L. cv Chantenay) in response to carbon and nitrogen supply in the culture medium. The specific activity of GDH was derepressed in sucrose-starved cells concomitant with protein catabolism, ammonium excretion, and the accumulation of metabolically active amino acids. The addition of sucrose led to a rapid decrease in GDH specific activity, an uptake of ammonium from the medium, and a decrease in amino acid levels. The extent of GDH derepression was correlated positively with cellular glutamate concentration. These findings strengthen the view that the function of GDH is the catabolism of glutamate, which under conditions of carbon stress provides carbon skeletons for tricarboxylic acid cycle activity.

Published
1992

28. Detection of 15N-labeled ammonium. In Vivo, 15N NMR versus mass spectrometry

Author

G. R. Stewart, G. G. Fox, R. G. Ratcliffe, Sharon A. Robinson, and A. P. Slade

Subjects
chemistry.chemical_compound, In vivo, Chemistry, General Engineering, Ammonium, Nuclear Overhauser effect, Nuclear magnetic resonance spectroscopy, Carboxylate, Mass spectrometry, Sample preparation in mass spectrometry, Ammonium compounds, Nuclear chemistry
Published
1992

29. Functional transition in the floral receptacle of the sacred lotus (Nelumbo nucifera): from thermogenesis to photosynthesis

Author

Jennifer R. Watling, Sharon A. Robinson, and Rebecca E. Miller

Subjects
chemistry.chemical_classification, Biological pigment, Antheraxanthin, Plant Science, Biology, Photosynthesis, Zeaxanthin, chemistry.chemical_compound, chemistry, Anthesis, Xanthophyll, Chlorophyll, Botany, Pigment accumulation, Agronomy and Crop Science
Abstract

The receptacle of the sacred lotus is the main source of heat during the thermogenic stage of floral development. Following anthesis, it enlarges, greens and becomes a fully functional photosynthetic organ. We investigated development of photosynthetic traits during this unusual functional transition. There were two distinct phases of pigment accumulation in receptacles. Lutein and photoprotective xanthophyll cycle pigments accumulated first with 64 and 95% of the maximum, respectively, present before anthesis. Lutein epoxide comprised 32% of total carotenoids in yellow receptacles, but declined with development. By contrast, more than 85% of maximum total chlorophyll, β-carotene and Rubisco were produced after anthesis, and were associated with significant increases in maximum electron transport rates (ETR) and photochemical efficiency (Fv/Fm). Leaves and mature receptacles had similar Rubisco content and ETRs (>200 μmol m−2 s−1), although total chlorophyll and total carotenoid contents of leaves were significantly higher than those of green receptacles. Receptacle δ13C before anthesis was similar to that of leaves; consistent with leaf photosynthesis being the source of C for these tissues. In contrast, mature receptacles had significantly lower δ13C than leaves, suggesting that 14–24% of C in mature receptacles is the result of refixation of respired CO2.

Published
2008

30. Survey of Alternative Feedstocks for Commodity Chemical Manufacturing

Author

Joanna McFarlane and Sharon M Robinson

Subjects
Materials science, Waste management, business.industry, Commodity chemicals, Chemical industry, Raw material, chemistry.chemical_compound, chemistry, Synthetic fuel, Natural gas, Petroleum, Oil sands, business, Oil shale
Abstract

The current high prices for petroleum and natural gas have spurred the chemical industry to examine alternative feedstocks for the production of commodity chemicals. High feedstock prices have driven methanol and ammonia production offshore. The U.S. Chemical Industry is the largest user of natural gas in the country. Over the last 30 years, alternatives to conventional petroleum and natural gas feedstocks have been developed, but have limited, if any, commercial implementation in the United States. Alternative feedstocks under consideration include coal from unconventional processing technologies, such as gasification and liquefaction, novel resources such as biomass, stranded natural gas from unconventional reserves, and heavy oil from tar sands or oil shale. These feedstock sources have been evaluated with respect to the feasibility and readiness for production of the highest volume commodity chemicals in the United States. Sources of organic compounds, such as ethanol from sugar fermentation and bitumen-derived heavy crude are now being primarily exploited for fuels, rather than for chemical feedstocks. Overall, government-sponsored research into the use of alternatives to petroleum feedstocks focuses on use for power and transportation fuels rather than for chemical feedstocks. Research is needed to reduce cost and technical risk. Use of alternative feedstocks is moremore » common outside the United States R&D efforts are needed to make these processes more efficient and less risky before becoming more common domestically. The status of alternative feedstock technology is summarized.« less

Published
2008

31. Native hemiparasite and light effects on photoprotection and photodamage in a native host

Author

José M. Facelli, Robert M. Cirocco, Melinda J. Waterman, Sharon A. Robinson, and Jennifer R. Watling

Subjects
Chlorophyll b, chemistry.chemical_classification, biology, Antheraxanthin, Plant Science, biology.organism_classification, Zeaxanthin, chemistry.chemical_compound, chemistry, Photoprotection, Xanthophyll, Botany, Agronomy and Crop Science, Cassytha pubescens, Chlorophyll fluorescence, Violaxanthin
Abstract

Plants infected with hemiparasites often have lowered rates of photosynthesis, which could make them more susceptible to photodamage. However, it is also possible that infected plants increase their photoprotective capacity by changing their pigment content and/or engagement of the xanthophyll cycle. There are no published studies investigating infection effects on host pigment dynamics and how this relates to host susceptibility to photodamage whether in high (HL) or low light (LL). A glasshouse experiment was conducted where Leptospermum myrsinoides Schltdl. either uninfected or infected with Cassytha pubescens R.Br. was grown in HL or LL and pigment content of both host and parasite were assessed. Infection with C. pubescens significantly decreased all foliar pigment concentrations (except chlorophyll b) in L. myrsinoides in both HL and LL. Xanthophyll cycle (violaxanthin, antheraxanthin, zeaxanthin; VAZ) and chlorophyll (Chl) pigments decreased in parallel in response to infection, hence, VAZ/Chl of the host was unaffected by C. pubescens in either HL or LL. Pre-dawn and midday de-epoxidation state [(A + Z)/(V + A + Z)] of L. myrsinoides was also unaffected by infection in both HL and LL. Thus, L. myrsinoides infected with C. pubescens maintained similar photoprotective capacity per unit chlorophyll and engagement of the xanthophyll cycle as uninfected plants. Even though midday quantum yield (ΦPSII) of HL plants was affected by infection, pre-dawn maximum quantum yields (Fv/Fm) of hosts were the same as uninfected plants whether in HL or LL. This ability of L. myrsinoides to maintain photoprotective capacity/engagement when infected by C. pubescens thereby preventing photodamage could explain this host’s tolerance to hemiparasite infection.

Published
2015

32. Plant Light Stress

Author

Sharon A. Robinson

Subjects
chemistry.chemical_classification, Photoinhibition, chemistry, Photoprotection, Xanthophyll, Botany, Photorespiration, Photosynthesis, Photosynthetic capacity, Excess energy, Light stress
Abstract

If plants are exposed to light intensities that exceed their photosynthetic capacity, there is the potential for photodamage. Plants have therefore evolved a number of photoprotective strategies that allow them to dissipate excess energy and prevent damage to the photosynthetic apparatus. Keywords: photoprotection; xanthophyll cycle; photoinhibition; photosynthesis; photorespiration

Published
2001

33. EVIDENCE FOR DEAMINATION BY GLUTAMATE-DEHYDROGENASE IN HIGHER-PLANTS - COMMENTARY

Author

G. R. Stewart, G. G. Fox, R. G. Ratcliffe, and Sharon A. Robinson

Subjects
biology, Glutamate dehydrogenase, Deamination, Glutamate receptor, Oxidative deamination, Plant Science, Enzyme assay, chemistry.chemical_compound, Biochemistry, chemistry, Glutamate synthase, Glutamine synthetase, biology.protein, Ammonium
Abstract

Glutamate dehydrogenase (GDH; EC 1.4.1.2) catalyses the interconversion of 2-oxoglutarate and glutamate. For many years it was assumed that GDH established a net flux in the direction of glutamate synthesis in higher plants and that this ubiquitous enzyme was responsible for the assimilation of ammonium (Davies 1968). However, this view changed with the discovery of glutamate synthase (GOGAT; EC 1.4.1.13), and it is now generally accepted that it is the glutamate synthase cycle, involving the successive operation of glutamine synthetase (GS; EC 6.3.1.2) and GOGAT, that is the major pathway for the assimilation of ammonium by higher plants (Lea and Miflin 1974; Stewart et al. 1980; Lea et al. 1990; Oaks 1994). Although it has been argued that there may be circumstances in which GDH could still provide a route for ammonium assimilation (Cammaerts and Jacobs 1985; Srivastava and Singh 1987; Loyola-Vargas et al. 1988; Magalhaes et al. 1990), recent attention has focused on the oxidative deamination of glutamate by GDH and the hypothesis that GDH performs an anaplerotic function in plants (Robinson et al. 1991, 1992). We used a combination of in vivo and in vitro methods to investigate the function of GDH in carrot (Daucus carota L.) cell suspension cultures, and the results were entirely consistent with a role for the enzyme in the deamination of glutamate. Firstly, enzyme assays of cell extracts showed that GDH activity was lowest in cells in the exponential phase of growth and reached a maximum in the stationary phase (Robinson et al. 1991). This suggests that GDH is unlikely to be important in ammonium assimilation, since the exponential phase coincides with a period of rapid nitrogen assimila

Published
1995

34. Interpretations of gradients in ?13C value in thick photosynthetic tissues of plants with Crassulacean acid metabolism

Author

Larry Giles, Sharon A. Robinson, and C. Barry Osmond

Subjects
biology, Epidermis (botany), Crassula ovata, Plant Science, biology.organism_classification, Photosynthesis, Crassulaceae, chemistry.chemical_compound, chemistry, Botany, Genetics, Crassulacean acid metabolism, Malic acid, Kalanchoe beharensis, Crassula
Abstract

In Ceropegia dichotoma, Crassula argentea, Esheveria colorata, Kalanchoe beharensis, Opuntia ficus-indica, Sansveria stuckyi and Opuntia inermis the carbon-isotope ratio (δ13C) of tissues close to the epidermis is 2–4.3‰ more negative than those in the centre of the leaf or cladode. The greatest change in δ13C value occurs between the epidermal layer and the layer of mesophyll tissue immediately underneath. Analysis of major metabolic and structural components in successive layers of Crassula argentea grown under controlled environmental conditions conducive to Crassulacean acid metabolism confirmed that much of the variation in δ13C values of bulk carbon is caused by differences in chemical composition. Thus the steep gradient in δ13C value at the epidermis reflects, in part, the contribution of more-negative δ13C values of lipids in these tissues. Moreover, during nocturnal CO2 fixation the amount of malic acid synthesised decreases with depth and the δ13C value of the methanol-soluble fraction is less negative with distance away from the upper epidermis. These results are consistent with diffusion limitation to CO2 uptake in these thick leaf tissues, which also contributes to the observed gradients in δ13C value.

Published
1993

35. The role of glutamate dehydrogenase in plant nitrogen metabolism

Author

Richard Phillips, R. G. Ratcliffe, G. R. Stewart, A. P. Slade, G. G. Fox, and Sharon A. Robinson

Subjects
biology, Physiology, Chemistry, Glutamate dehydrogenase, Nitrogen assimilation, Glutamate receptor, Plant Science, Metabolism, Citric acid cycle, Biochemistry, Glutamate synthase, Glutamine synthetase, Genetics, biology.protein, Branched-chain alpha-keto acid dehydrogenase complex, Metabolism and Enzymology
Abstract

In vivo nuclear magnetic resonance spectroscopy, in vitro gas chromatography-mass spectrometry, and automated (15)N/(13)C mass spectrometry have been used to demonstrate that glutamate dehydrogenase is active in the oxidation of glutamate, but not in the reductive amination of 2-oxogiutarate. In cell suspension cultures of carrot (Daucus carota L. cv Chantenay), primary assimilation of ammonium occurs via the glutamate synthase pathway. Glutamate dehydrogenase is derepressed in carbonlimited cells and in such cells the function of glutamate dehydrogenase appears to be the oxidation of glutamate, thus ensuring sufficient carbon skeletons for effective functioning of the tricarboxylic acid cycle. This catabolic role for glutamate dehydrogenase implies an important regulatory function in carbon and nitrogen metabolism.

Published
1991

36. Phylloxera-infested grapevines have reduced chlorophyll and increased photoprotective pigment content — can leaf pigment composition aid pest detection?

Author

A.L. Blanchfield, Luigi J. Renzullo, Kevin S. Powell, and Sharon A. Robinson

Subjects
Ecophysiology, Vine, biology, fungi, food and beverages, Plant Science, biology.organism_classification, Photochemical Reflectance Index, medicine.disease_cause, chemistry.chemical_compound, Horticulture, chemistry, Chlorophyll, Botany, Infestation, medicine, Cultivar, PEST analysis, Agronomy and Crop Science, Phylloxera
Abstract

Grape phylloxera (Daktulosphaira vitifoliae Fitch) is a root-feeding pest of grapevines. In Australia, phylloxera-infested vineyards are subjected to quarantine restrictions and early detection remains vital for the timely implementation of post-outbreak quarantine protocols. Current detection methods rely on time-consuming ground surveying, which involves detailed examination of grapevine (Vitis vinifera L.) root systems. Leaf pigment composition is often a sensitive indicator of plant stress. The increasing popularity of remote sensing systems, which exploit those changes in pigments observed with plant stress, offers a real possibility for the development of a phylloxera-specific remote detection system. Our objective was to investigate changes in grapevine leaf pigments associated with phylloxera infestation and to relate any changes to appropriate reflectance indices. This was achieved with a glasshouse experiment in which the responses of two vine cultivars (Cabernet Sauvignon and Shiraz) to phylloxera infestation were compared with their responses to water and nitrogen deficiencies. The responses of leaf pigments to phylloxera infestation were also investigated in Pinot Noir and Cabernet Sauvignon grapevines grown under field conditions. A reduction in the leaf chlorophyll content and an increase in photoprotective pigment concentrations were observed in leaves of phylloxera-infested grapevines compared with uninfested vines. The photochemical reflectance index (PRI) was found to be most closely associated with the ratio of total carotenoid to chlorophyll in these vines.

Published
2006

37. Comparison of solvent regimes for the extraction of photosynthetic pigments from leaves of higher plants

Author

Sharon A. Robinson, Jodie L. Dunn, and Johanna D. Turnbull

Subjects
Aqueous solution, Chromatography, Extraction (chemistry), Plant Science, Biology, Photosynthesis, Solvent, chemistry.chemical_compound, Pigment, chemistry, visual_art, Botany, Acetone, visual_art.visual_art_medium, Plant species, Methanol, Agronomy and Crop Science
Abstract

The relative efficiency of methanol- and acetone-based solvents for the extraction of pigments from photosynthetic tissues of plant was compared, together with the advantages of multiple versus single extractions. The two commonly employed triple acetone extractions (100 : 80 : 80% and 85 : 100 : 100%) performed comparably for most pigments and for all plant species tested. Single extractions with either 96% methanol or 85% acetone failed to extract the more hydrophobic pigments, especially β-carotene. We conclude that multiple extractions that combine pure and aqueous (80–85%) acetone are preferable for extraction of the full range of pigments. These results suggest that previous studies that have utilised aqueous methanol (especially in a single extraction) have probably underestimated the concentration of β-carotene relative to other pigments.

Published
2004

38. Responses of Rainforest Understorey Plants to Excess Light during Sunflecks

Author

Jennifer R. Watling, C. B. Osmond, Sharon A. Robinson, and Ian E. Woodrow

Subjects
chemistry.chemical_classification, Photoinhibition, Antheraxanthin, Plant Science, Biology, Photosynthesis, Horticulture, chemistry.chemical_compound, chemistry, Xanthophyll, Photoprotection, Chlorophyll, Botany, Agronomy and Crop Science, Chlorophyll fluorescence, Violaxanthin
Abstract

Responses of Alocasia macrorrhiza (L.) G. Don, Castanospora alphandii (F. Muell.) F. Muell. and Alpinia hylandii R. Smith, growing in a tropical rainforest understorey, to excess light during sunflecks were investigated using chlorophyll fluorescence techniques and by analysing xanthophyll cycle activity. A fourth species, the pioneerOmalanthus novo-guineensis (Warb.) Schum., growing in a small gap, was also studied. In all three understorey species there were large and rapid decreases in the proportion of open Photosystem II (PSII) centres, as indicated by qP, on illumination with saturating light and a concurrent increase in non-photochemical quenching. qP remained low (< 0.4) throughout the period of illumination (~15 min), although it did increase gradually, probably reflecting photosynthetic induction. Sustained declines (up to 120 min) in quantum yield, indicated by Fv/Fm, occurred in all three understorey species following exposure to saturating Photon flux density (PFD) during sunflecks. When ?PSII was monitored during sunflecks it was found to be very sensitive to changes in PFD, declining rapidly with even modest rises in the latter. There was rapid and continuing net conversion of violaxanthin (V) to antheraxanthin plus zeaxanthin (A+Z) on exposure of A. macrorrhiza and C. alphandii to saturating sunflecks. On returning to low light A. macrorrhiza retained its high levels of A+Z for up to 60 min, while C. alphandii rapidly converted back to V. O. novo- guineensis responded to high light by changing its leaf angle to reduce interception and showed no indication of photoinhibition during or after exposure.

Published
1997

39. Evidence That Glutamate Dehydrogenase Plays a Role in the Oxidative Deamination of Glutamate in Seedlings of Zea mays

Author

G. R. Stewart, Sharon A. Robinson, R Goodall, Matthew H. Turnbull, and VR Shatilov

Subjects
chemistry.chemical_classification, biology, Glutamate dehydrogenase, Oxidative deamination, Plant Science, Metabolism, Amino acid, Glutamine, chemistry.chemical_compound, chemistry, Biochemistry, Glutamate synthase, biology.protein, Ammonium, Asparagine, Agronomy and Crop Science
Abstract

In order to investigate the role of glutamate dehydrogenase we have compared the metabolism of [15N]glutamate in young seedlings of wild-type and a glutamate dehydrogenase-null mutant of Zea mays. The principal labelled products in roots of wild-type seedlings are the amide nitrogen of glutamine, glutamine-amino nitrogen and ammonium. The incorporation of label into glutamine-amide is markedly inhibited by methionine sulfoximine. In contrast, little or no labelling of glutamine-amide or ammonium occurs in roots of the GDH1-null mutant, the major labelled product is the amino group of asparagine. In shoots of the wild type, 15N is recovered in the amide of glutamine, ammonium, the amino group of asparagine and other amino acids. In mutant shoots, over 75% of the label is recovered in the asparagine-amino group and there is little labelling of glutamine-amide or ammonium. These major differences in glutamate metabolism of wild-type and mutant seedlings are consistent with glutamate dehydrogenase functioning in the direction of oxidative deamination and having a role in protein catabolism of germinating seeds.

Published
1995

40. Beyond Sham and Cyanide: Opportunities for Studying the Alternative Oxidase in Plant Respiration Using Oxygen Isotope Discrimination

Author

Y Reuveni, L. Giles, Sharon A. Robinson, Miquel Ribas-Carbo, Joseph A. Berry, and Dan Yakir

Subjects
Alternative oxidase, Oxidase test, Cellular respiration, Cyanide, chemistry.chemical_element, Plant Science, Biology, Oxygen, chemistry.chemical_compound, chemistry, Biochemistry, Respiration, Alternative complement pathway, Agronomy and Crop Science, Flux (metabolism)
Abstract

Discrimination against 18O during dark respiration forms the basis of a new technique for measuring- flux through the alternative pathway during plant respiration. This technique, first reported by Guy and coworkers, is the first to allow measurements of the alternative oxidase in vivo under steady-state conditions. Improvements to the technique have produced a gas-phase system which allows measurements of alternative pathway flux in intact tissues in less than an hour. The development and application of these techniques and the potential for future experiments are discussed in this review.

Published
1995

41. Internal Gradients of Chlorophyll and Carotenoid Pigments in Relation to Photoprotection in Thick Leaves of Plants With Crassulacean Acid Metabolism

Author

Sharon A. Robinson and C. B. Osmond

Subjects
chemistry.chemical_classification, Lutein, biology, Antheraxanthin, food and beverages, Plant Science, biology.organism_classification, Zeaxanthin, chemistry.chemical_compound, Cotyledon orbiculata, chemistry, Neoxanthin, Photoprotection, Chlorophyll, Xanthophyll, Botany, Agronomy and Crop Science
Abstract

Studies of two species of Crassulacean acid metabolism (CAM) succulent, Cotyledon orbiculata and Cotyledon paniculata reveal external and internal mechanisms of protection against photoinhibitory damage. Both species have thick leaves (up to 8 mm) in which chlorophyll extends throughout the leaf, being somewhat more concentrated towards the outer layers. Epidermal wax on C. orbiculata, which is produced in response to bright light during growth, reflects up to 60% of the incident light and creates a shaded environment within the leaf. These leaves have a low carotenoid/chlorophyll ratio and relatively low levels of the xanthophyll cycle pigments, two of which, antheraxanthin and zeaxanthin, are thought to be involved in controlled dissipation of excess energy and therefore in photoprotection. Under growth irradiance (1300 μmol m-2 s-1) little antheraxanthin or zeaxanthin is found in the epidermal layers and there is none in the interior. However, when the wax is removed by brushing, antheraxanthin and zeaxanthin are found throughout the leaf. In contrast C. paniculata has low reflectivity and is a typical sun plant with a much higher carotenoid/chlorophyll ratio concentrated towards the upper epidermis. In both species the xanthophyll cycle pigments are concentrated towards the exposed surfaces of the leaf, whereas, lutein, β-carotene and neoxanthin are more evenly distributed. Changes in the relative concentrations of the xanthophyll cycle pigments throughout the leaf, measured at various light intensities, show that antheraxanthin and zeaxanthin are always greater at the exposed surfaces and decline towards the centre of the tissue. These results show that variations in the capacity for photoprotection correspond closely with gradients in the light environment within the leaf.

Published
1994

42. Preparation of metal oxide gel spheres with hexamethylenetetramine as an ammonia donor

Author

Allen D. Ryon, Sharon M. Robinson, W. Wilson Pitt, and Paul A. Haas

Subjects
Metal, Ammonia, chemistry.chemical_compound, chemistry, visual_art, General Engineering, visual_art.visual_art_medium, Oxide, General Medicine, Hexamethylenetetramine, Hydrate, Nuclear chemistry
Abstract

Preparation par gelatinisation interne de particules spheriques de gel contenant MO 3 , (Th,N)O x , Al 2 O 3 , Al 2 O 3 −ZrO 2 et des melanges de divers autres oxydes metalliques (Fe, Zr, Al et Si compris). On note que dans la gelatinisation interne, l'hexamethylenetetramine se decompose avec formation de NH 3 qui precipite les gels d'hydroxydes metalliques

Published
1983

43. Diatom communities differ among Antarctic moss and lichen vegetation types

Author

Jordan Bishop, Tyler J. Kohler, Bart Van de Vijver, Sharon A. Robinson, Melinda J. Waterman, Jane Wasley, and Kateřina Kopalová

Subjects
0106 biological sciences, Usnea, 010504 meteorology & atmospheric sciences, Economics, antarctic region, Oceanography, 01 natural sciences, east antarctica, Vegetation type, medicine, Lichen, Biology, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, algae, bryophyte, biology, Ecology, 010604 marine biology & hydrobiology, Physics, fungi, Geology, biology.organism_classification, Chemistry, Diatom, climate change, Bryophyte, Species richness, medicine.symptom, Crustose, Vegetation (pathology), bacillariophyceae
Abstract

Continental Antarctica is a polar desert containing sparse pockets of vegetation within ice-free areas. Despite the recognized association between lichens, mosses and epiphytic diatoms, the environmental factors controlling diatom community structure are poorly understood. We investigated the association between diatom communities and host vegetation characteristics by experimentally adding nutrients and/or water to two bryophyte (healthy and moribund) and two lichen (crustose andUsnea) vegetation types in the Windmill Islands. Diatom communities were morphologically characterized, diversity indices calculated and differences between treatments, vegetation type and vegetation characteristics tested. We identified 49 diatom taxa, 8 of which occurred with > 1% relative abundance. Bryophyte and lichen vegetation harboured significantly different diatom communities, both in composition and diversity indices. Specifically,Luticola muticopsiswas more prevalent in moribund bryophytes and crustose lichens, andUsnealichens showed lower species richness than other types. While nutrient and water additions did not significantly alter diatom communities, diversity indices and some species showed relationships with vegetation physiological characteristics, notably %N and δ13C, suggesting the importance of ambient gradients in water and nutrient availability. Collectively, this work suggests that future conditions favouring the dominance of a particular vegetation type may have a homogenizing effect on the terrestrial diatom communities of East Antarctica.

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