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SIBYLLE STEINBEISS HOLGER BEßLER CHRISTOF ENGELS VICKY M. TEMPERTON NINA BUCHMANN CHRISTIANE ROSCHER YVONNE KREUTZIGER JUSSI BAADE MAIKE HABEKOST GERD GLEIXNER 《Global Change Biology》2008,14(12):2937-2949
Increasing atmospheric CO2 concentration and related climate change have stimulated much interest in the potential of soils to sequester carbon. In ‘The Jena Experiment’, a managed grassland experiment on a former agricultural field, we investigated the link between plant diversity and soil carbon storage. The biodiversity gradient ranged from one to 60 species belonging to four functional groups. Stratified soil samples were taken to 30 cm depth from 86 plots in 2002, 2004 and 2006, and organic carbon contents were determined. Soil organic carbon stocks in 0–30 cm decreased from 7.3 kg C m?2 in 2002 to 6.9 kg C m?2 in 2004, but had recovered to 7.8 kg C m?2 by 2006. During the first 2 years, carbon storage was limited to the top 5 cm of soil while below 10 cm depth, carbon was lost probably as short‐term effect of the land use change. After 4 years, carbon stocks significantly increased within the top 20 cm. More importantly, carbon storage significantly increased with sown species richness (log‐transformed) in all depth segments and even carbon losses were significantly smaller with higher species richness. Although increasing species diversity increased root biomass production, statistical analyses revealed that species diversity per se was more important than biomass production for changes in soil carbon. Below 20 cm depth, the presence of one functional group, tall herbs, significantly reduced carbon losses in the beginning of the experiment. Our analysis indicates that plant species richness and certain plant functional traits accelerate the build‐up of new carbon pools within 4 years. Additionally, higher plant diversity mitigated soil carbon losses in deeper horizons. This suggests that higher biodiversity might lead to higher soil carbon sequestration in the long‐term and therefore the conservation of biodiversity might play a role in greenhouse gas mitigation. 相似文献
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A flux analysis of glucose metabolism in the filamentous fungus Rhizopus oryzae was achieved using a specific radioactivity curve-matching program, TFLUX. Glycolytic and tricarboxylic acid cycle intermediates labeled through the addition of extracellular [U-14C]glucose were isolated and purified for specific radioactivity determinations. This information, together with pool sizes and the rates of glucose utilization and end product production, provided input for flux maps of the metabolic network under two different experimental conditions. Based upon the flux analysis of this system, a mutant of R. oryzae with higher lactate and lower ethanol yields than the parent was sought for and found. 相似文献
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Ophioglossum petiolatum . Unlike Angiopteris (Marattiales), which is monoplastidic, Ophioglossum undergoes polyplastidic meiosis like members of the fern-seed plant clade. The meiotic spindle is distinctly multipolar in
origin and is consolidated into a bipolar spindle that is variously twisted and curved to accommodate the large number of
chromosomes. Although a phragmoplast forms after first meiosis, no wall is deposited. Instead, an organelle band consisting
of intermingled plastids and mitochondria is formed in the equatorial region between the dyad domains. Following second meiosis,
a complex of phragmoplasts forms among sister and non-sister nuclei. Cell plates are deposited first between sister nuclei
and then in the region of the organelle band resulting in a tetrad of spores each with a equal allotment of organelles.
Received 30 January 2001/ Accepted in revised form 24 April 2001 相似文献
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Pig to human xenotransplantation is considered a possible solution to the
prevailing chronic lack of human donor organs for allotransplantation. The
Galalpha1,3Gal determinant is the major porcine xenogeneic epitope causing
hyperacute rejection following human antibody binding and complement
activation. In order to characterize the tissue distribution of
Galalpha1,3Gal-containing and blood group- type glycosphingolipids in pig,
acid and nonacid glycosphingolipids were isolated from the kidney, small
intestine, spleen, salivary gland, liver, and heart of a single pig
obtained from a semi-inbred strain homozygous at the SLA locus. Glycolipids
were analyzed by thin-layer immunostaining using monoclonal antibodies, and
following ceramide glycanase cleavage as permethylated oligosaccharides by
gas chromatography, gas chromatography-mass spectrometry, and matrix-
assisted laser desorption/ionization mass spectrometry. The kidney
contained large amounts of Galalpha1,3Gal-containing penta- and
hexasaccharides having carbohydrate sequences consistent with the
Galalpha1,3nLc4and Galalpha1,3Lexstructures, respectively. The former
structure was tentatively identified in all organs by GC/MS. The presence
of extended Galalpha1,3Gal-terminated structures in the kidney and heart
was suggested by antibody binding, and GC/MS indicated the presence of a
Galalpha1,3nLc6structure in the heart. The kidney, spleen, and heart
contained blood group H pentaglycosylceramides based on type 1 (H-5-1) and
type 2 (H-5-2) chains, and H hexaglycosylceramides based on the type 4
chain (H-6-4). In the intestine H-5-1 and H-6-4 were expressed, in the
salivary gland H-5-1 and H-5-2, whereas only the H-5-1 structure was
identified in the liver. Blood group A structures were identified in the
salivary gland and the heart by antibody binding and GC/MS, indicating an
organ- specific expression of blood group AH antigens in the pig.
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Angiopteris (Marattiales) undergoes the more primitive form of monoplastidic meiosis, while other ferns have evolved the polyplastidic
type typical of seed plants. In monoplastidic cell division, the single plastid divides and serves as site of the microtubule
organizing center (MTOC) for spindle formation resulting in coordinated division of plastid, nucleus, and cytoplasm. In plants
with polyplastidic cell division, the MTOC is diffuse and generally perinuclear. Monoplastidic cell division is seen as a
plesiomorphic feature that was inherited from algal ancestors containing a single plastid and modified through evolution.
Monoplastidic meiosis occurs in all groups of bryophytes (although in only a few hepatics), Isoetes, Selaginella, certain generic segregates of Lycopodium, and in members of the Marattiales. It is not known to occur in psilophytes, Equisetum, leptosporangiate ferns, or seed plants.
Received 30 January 2001/ Accepted in revised form 24 April 2001 相似文献
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NM Kouyoumdzian NL Rukavina Mikusic G Cao MR Choi SL Della Penna BE Fernández 《Biotechnic & histochemistry》2016,91(8):510-521
We studied the effects of tempol, an oxygen radical scavenger, on hydrosaline balance in rats with acute sodium overload. Male rats with free access to water were injected with isotonic (control group) or hypertonic saline solution (0.80 mol/l NaCl) either alone (Na group) or with tempol (Na-T group). Hydrosaline balance was determined during a 90 min experimental period. Protein expressions of aquaporin 1 (AQP1), aquaporin 2 (AQP2), angiotensin II (Ang II) and endothelial nitric oxide synthase (eNOS) were measured in renal tissue. Water intake, creatinine clearance, diuresis and natriuresis increased in the Na group. Under conditions of sodium overload, tempol increased plasma sodium and protein levels and increased diuresis, natriuresis and sodium excretion. Tempol also decreased water intake without affecting creatinine clearance. AQP1 and eNOS were increased and Ang II decreased in the renal cortex of the Na group, whereas AQP2 was increased in the renal medulla. Nonglycosylated AQP1 and eNOS were increased further in the renal cortex of the Na-T group, whereas AQP2 was decreased in the renal medulla and was localized mainly in the cell membrane. Moreover, p47-phox immunostaining was increased in the hypothalamus of Na group, and this increase was prevented by tempol. Our findings suggest that tempol causes hypernatremia after acute sodium overload by inhibiting the thirst mechanism and facilitating diuresis, despite increasing renal eNOS expression and natriuresis. 相似文献
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