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  • Quercus robur  (2)
  • gas exchange  (2)
  • Cucumis  (1)
  • 1
    Electronic Resource
    Electronic Resource
    Evidence for an intracellular sulfur cycle in cucumber leaves (1982)
    Springer
    Planta 154 (1982), S. 516-524 
    Details
    ISSN: 1432-2048
    Keywords: Cucumis ; Cysteine ; Hydrogen sulfide emission ; Sulfur cycle and metabolism
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology
    Notes: Abstract H2S emission from cucumber (Cucumis sativus L.) leaf discs supplied with L-cysteine in the dark is inhibited 80–90% by aminooxyacetic acid (AOA), an inhibitor of pyridoxal-phosphate dependent enzymes. Exposure to L-cysteine in the light enhanced the emission of H2S in response to this sulfur source. Turning off the light reduced the emission of H2S to the rate observed in continuous dark; turning on the light enhanced the emission of H2S to the rate observed in continuous light. Therefore, in the light H2S emission in response to L-cysteine becomes a partially light-dependent process. Treatment with cyanazine, an inhibitor of photosynthetic electron transport, reduced H2S emission in the light to the rate observed in continuous dark, but did not affect H2S emission in the dark. In leaf discs pre-exposed to L-cysteine in the light, treatment with cyanazine+ AOA inhibited the emission of H2S in response to L-cysteine completely. Therefore, only part of the H2S emitted in response to this sulfur source is derived from a light-independent, but pyridoxal-phosphate-dependent process; the balance of the H2S emitted is derived from a light-dependent process that can be inhibited by cyanazine. When cucumber leaf discs were supplied with a pulse of L-[35S]cysteine, radioactively labeled H2S was emitted in two waves, one during the first hour of exposure to L-cysteine, and a second after 3–4 h; unlabeled H2S, however, was emitted continuously. The second wave of emission of labeled H2S was not observed in pulse-chase experiments in which sulfate or cyanazine were added to the treatment solution after 3 h of exposure to L-cysteine, or when the lights was turned off. The labeling pattern of sulfur compounds inside cucumber cells supplied with a pulse of L-[35S]cysteine showed that the labeled H2S released from L-cysteine partially enters first the sulfite, then the sulfate pool of the cells. The radioactively labeled sulfate, however, is not incorporated into L-cysteine, but enters the H2S pool of the cells again. These observations are consistent with the idea of an intracellular sulfur cycle in plant cells. The L-cysteine taken up by the leaf discs seems to be desulfhydrated in a light-independent, but pyridoxal-phosphate-dependent process. The H2S synthesized this way may be partially released into the atmosphere; the other part of the H2S produced in response to L-cysteine may be oxidized to sulfite, then to sulfate, which is subsequently reduced via the light-depent sulfate assimilation pathway. In the presence of excess L-cysteine, synthesis of additional cysteine may be inhibited, and the sulfide moiety may be split off carrier bound sulfide to enter the H2S pool of the cells again. It is suggested that the function of this sulfur cycle may be regulation of the free cysteine pool.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00402995
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    Paper (German National Licenses)
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  • 2
    Electronic Resource
    Electronic Resource
    Interactive effects of mycorrhization and elevated carbon dioxide on growth of young pedunculate oak (Quercus robur L.) trees (1994)
    Springer
    Plant and soil 167 (1994), S. 325-329 
    Details
    ISSN: 1573-5036
    Keywords: Climate change ; elevated carbon dioxide ; growth ; Laccaria laccata ; mycorrhization ; oak ; Quercus robur
    Source: Springer Online Journal Archives 1860-2000
    Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition
    Notes: Abstract Pedunculate oak (Quercus robur L.) was germinated and grown at ambient CO2 level and 650 ppmv CO2 in the presence and absence of the ectomycorrhizal fungus Laccaria laccata for a total of 6 month under nutrient non-limiting conditions. Mycorrhization and elevated atmospheric CO2 each supported the growth of the trees. Stem height, stem diameter, and dry matter accumulation of pedunculate oak were increased by mycorrhization. Elevated atmospheric CO2 enhanced stem height, stem diameter, fresh weight and dry weight, as well as lateral root formation of the trees. In combination, mycorrhization and elevated atmospheric CO2 had a more than additive, positive effect on tree height and biomass accumulation, and further improved lateral root formation of the trees. From these findings it is suggested that the efficiency of the roots in supporting the growth of the shoot is increased in mycorrhized oak trees at elevated atmospheric CO2.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00007960
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  • 3
    Electronic Resource
    Electronic Resource
    Exchange of NO and NO2 between wheat canopy monoliths and the atmosphere (1996)
    Springer
    Plant and soil 180 (1996), S. 197-208 
    Details
    ISSN: 1573-5036
    Keywords: dynamic chamber ; gas exchange ; nitrogen dioxide ; nitric oxide ; wheat canopy monolith
    Source: Springer Online Journal Archives 1860-2000
    Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition
    Notes: Abstract The fluxes of NO and NO2 between wheat canopy monoliths and the atmosphere were investigated with the dynamic chamber technique. For this purpose monoliths were dug out at different plant growth stages from a field site, transported to the institute, and placed in an environmental growth chamber. The wheat canopy monoliths were exposed over a period of four days to the average ratios of atmospheric NO2 and NO measured at the field site, i.e. NO2 concentration of about 18 mL L-1 plus NO concentration lower than 0.5 nL L-1. Under these conditions NO emission into the atmosphere and NO2 deposition into canopy monoliths was observed. Both fluxes showed diurnal variation with maximum rates during the light and minimum rates during darkness. NO2 fluxes correlated with soil temperature as well as with light intensity. NO fluxes correlated with soil temperature but not with light intensity. From the investigation performed the diurnal variation of the NO and NO2 compensation points, the maximum rates of NO and NO2 emission, and the total resistances of NO and NO2 fluxes were calculated. Under the assumption that the measured data are representative for the whole vegetation period, annual fluxes of NO and NO2 were estimated. Annual NO emission into the atmosphere amounted to 87 mg N m-2 y-1 (0.87 kg ha-1 y-1), annual NO2 deposition into canopy monoliths amounted to 1273 mg N m-2 y-1 (12.73 kg ha-1 y-1). Apparently, the uptake of atmospheric nitrogen by the wheat field from NO2 deposition is about 15 times higher than the loss of nitrogen from NO emission. It can therefore be assumed that even in rural areas wheat fields are a considerable sink for atmospheric nitrogen. The annual sink strength estimated in the present study is ca. 12 kg N ha-1 y-1. The possible origin of the NO emitted and the fate of atmospheric NO2 taken up by the wheat canopy monoliths are discussed.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00015303
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  • 4
    Electronic Resource
    Electronic Resource
    The significance of ectomycorrhizal fungi for sulfur nutrition of trees (1999)
    Springer
    Plant and soil 215 (1999), S. 115-122 
    Details
    ISSN: 1573-5036
    Keywords: allocation ; beech ; cysteine ; Fagus sylvatica ; glutathione ; Laccaria laccata ; methionine ; mycorrhization ; oak ; phloem ; Quercus robur ; sulfate ; sulfur ; uptake ; xylem ; xylem loading
    Source: Springer Online Journal Archives 1860-2000
    Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition
    Notes: Abstract Sulfur nutrition of plants is largely determined by sulfate uptake of the roots, the allocation of sulfate to the sites of sulfate reduction and assimilation, the reduction of sulfate to sulfide and its assimilation into reduced sulfur-containing amino acids and peptides, and the allocation of reduced sulfur to growing tissues that are unable to fulfill their own demand for reduced sulfur in growth and development. Association of the roots of pedunculate oak (Quercus robur L.) and beech (Fagus sylvatica L.) trees with ectomycorrhizal fungi seems to interact with these processes of sulfur nutrition in different ways, but the result of these interactions is dependent on both the plant and the fungal partners. Mycorrhizal colonisation of the roots can alter the response of sulfate uptake to sulfate availability in the soil and enhances xylem loading and, hence, xylem transport of sulfate to the leaves. As a consequence, sulfate reduction in the leaves may increase. Simultaneously, sulfate reduction in the roots seems to be stimulated by ectomycorrhizal association. Increased sulfate reduction in the leaves of mycorrhizal trees can result in enhanced phloem transport of reduced sulfur from the leaves to the roots. Different from herbaceous plants, enhanced phloem allocation of reduced sulfur does not negatively affect sulfate uptake by the roots of trees. These interactions between mycorrhizal association and the processes involved in sulfur nutrition are required to provide sufficient amounts of reduced sulfur for increased protein synthesis that is used for the enhanced growth of trees frequently observed in response to ectomycorrhizal association.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1023/A:1004459523021
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  • 5
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    Physiological Responses to Abiotic and Biotic Stress in Forest Trees (2021)
    MDPI - Multidisciplinary Digital Publishing Institute
    Details
    Publication Date: 2024-04-11
    Description: As sessile organisms, plants have to cope with a multitude of natural and anthropogenic forms of stress in their environment. Due to their longevity, this is of particular significance for trees. As a consequence, trees develop an orchestra of resilience and resistance mechanisms to biotic and abiotic stresses in order to support their growth and development in a constantly changing atmospheric and pedospheric environment. The objective of this Special Issue of Forests is to summarize state-of-art knowledge and report the current progress on the processes that determine the resilience and resistance of trees from different zonobiomes as well as all forms of biotic and abiotic stress from the molecular to the whole tree level.
    Keywords: TA1-2040 ; T1-995 ; TA170-171 ; pure stands ; n/a ; ion relation ; Heterobasidion annosum ; salicylic acid ; antioxidant enzymes ; antioxidant activity ; Luquasorb ; intrinsic water-use efficiency ; Greece ; Pinus koraiensis Sieb. et Zucc. ; ion homeostasis ; photosynthesis ; Pinus massoniana ; Stockosorb ; water relations ; Norway spruce ; rubber tree ; hydrophilic polymers ; drought stress ; ion relationships ; Carpinus betulus ; tree rings ; N nutrition ; disturbance ; Populus simonii Carr. (poplar) ; infection ; subcellular localization ; basal area increment ; mixed stands ; photosynthetic responses ; Aleppo pine ; water potential ; elevation gradient ; living cell ; physiological response ; antioxidant enzyme activity ; ion contents ; signal network ; expression ; soil N ; GA-signaling pathway ; differentially expressed genes ; Ca2+ signal ; climate ; ecophysiology ; Robinia pseudoacacia L. ; Heterobasidion parviporum ; mid-term ; plant tolerance ; canopy conductance ; DELLA ; tapping panel dryness ; osmotic adjustment substances ; abiotic stress ; wood formation ; malondialdehyde ; salinity treatments ; organic osmolytes ; bamboo forest ; non-structural carbohydrate ; Abies alba Mill. ; tree ; salt stress ; Populus euphratica ; proline ; nutrition ; Carpinus turczaninowii ; plasma membrane Ca2+ channels ; gene regulation ; pathogen ; TCP ; forest type ; functional analysis ; Fraxinus mandshurica Rupr. ; long-term drought ; defense response ; cold stress ; silicon fertilization ; gas exchange ; Fagus sylvatica L. ; glutaredoxin ; water availability ; 24-epiBL application ; Konjac glucomannan ; leaf properties ; reactive oxygen species ; sap flow ; ?13C ; salinity ; morphological indices ; chloroplast ultrastructure ; Moso Bamboo (Phyllostachys edulis) ; drought ; soluble sugar ; molecular cloning ; starch ; growth ; thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
    Language: English
    Format: application/octet-stream
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