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Effect of precipitation variability on net primary production and soil respiration in a Chihuahuan Desert grassland 总被引:2,自引:0,他引:2
MICHELL L. THOMEY SCOTT L. COLLINS RODRIGO VARGAS JENNIFER E. JOHNSON RENEE F. BROWN DONALD O. NATVIG MICHAEL T. FRIGGENS 《Global Change Biology》2011,17(4):1505-1515
Precipitation regimes are predicted to become more variable with more extreme rainfall events punctuated by longer intervening dry periods. Water‐limited ecosystems are likely to be highly responsive to altered precipitation regimes. The bucket model predicts that increased precipitation variability will reduce soil moisture stress and increase primary productivity and soil respiration in aridland ecosystems. To test this hypothesis, we experimentally altered the size and frequency of precipitation events during the summer monsoon (July through September) in 2007 and 2008 in a northern Chihuahuan Desert grassland in central New Mexico, USA. Treatments included (1) ambient rain, (2) ambient rain plus one 20 mm rain event each month, and (3) ambient rain plus four 5 mm rain events each month. Throughout two monsoon seasons, we measured soil temperature, soil moisture content (θ), soil respiration (Rs), along with leaf‐level photosynthesis (Anet), predawn leaf water potential (Ψpd), and seasonal aboveground net primary productivity (ANPP) of the dominant C4 grass, Bouteloua eriopoda. Treatment plots receiving a single large rainfall event each month maintained significantly higher seasonal soil θ which corresponded with a significant increase in Rs and ANPP of B. eriopoda when compared with plots receiving multiple small events. Because the strength of these patterns differed between years, we propose a modification of the bucket model in which both the mean and variance of soil water change as a consequence of interannual variability from 1 year to the next. Our results demonstrate that aridland ecosystems are highly sensitive to increased precipitation variability, and that more extreme precipitation events will likely have a positive impact on some aridland ecosystem processes important for the carbon cycle. 相似文献
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Using an insoluble inorganic salt precipitation technique, the permeability of cell walls and especially of endodermal Casparian bands (CBs) for ions was tested in young roots of corn (Zea mays) and rice (Oryza sativa). The test was based on suction of either 100 µm CuSO4 or 200 µm K4[Fe(CN)6] into the root from its medium using a pump (excised roots) or transpirational stream (intact seedlings), and subsequent perfusion of xylem of those root segments with the opposite salt component, which resulted in precipitation of insoluble brown crystals of copper ferrocyanide. Under suction, Cu2+ could cross the endodermis apoplastically in both plant species (although at low rates) developing brown salt precipitates in cell walls of early metaxylem and in the region between CBs and functioning metaxylem vessels. Hence, at least Cu2+ did cross the endodermis dragged along with the water. The results suggested that CBs were not perfect barriers to apoplastic ion fluxes. In contrast, ferrocyanide ions failed to cross the mature endodermis of both corn and rice at detectable amounts. The concentration limit of apoplastic copper was 0.8 µm at a perfusion with 200 µm K4[Fe(CN)6]. Asymmetric development of precipitates suggested that the cation, Cu2+, moved faster than the anion, [Fe(CN)6]4–, through cell walls including CBs. Using Chara cell wall preparations (‘ghosts’) as a model system, it was observed that, different from Cu2+, ferrocyanide ions remained inside wall-tubes suggesting a substantially lower permeability of the latter which agreed with the finding of an asymmetric development of precipitates. In both corn and rice roots, there was a significant apoplastic flux of ions in regions where laterals penetrated the endodermis. Overall, the results show that the permeability of CBs to ions is not zero. CBs do not represent a perfect barrier for ions, as is usually thought. The permeability of CBs may vary depending on growth conditions which are known to affect the intensity of formation of bands. 相似文献
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LIBERMAN M.; MUTAFTSCHIEV S.; JAUNEAU A.; VIAN B.; CATESSON A. M.; GOLDBERG R. 《Annals of botany》1999,84(2):225-233
Specific antibodies were used to localize both pectic structuresand pectinmethylesterases (PME) along the mung bean hypocotyl.Calcium ions were also detected and estimated in both young,plastic and mature, stiffened cell walls. Highly methylesterifiedpectins were present in all cell walls but decreased from thehypocotyl hook downwards. Expanded cell walls were characterizedby a high content of calcium ions and acidic pectins, althoughthe latter's cross-reactivity to JIM 5 antibodies was partlylost. Co-localization of acidic homogalacturonan and calciumions suggests the presence of egg-box structures that mightparticipate in the cell wall stiffening process which developsalong the hypocotyl. Acidic polymers could originate from theactivity of the pectinmethylesterases present in precise wallareas but direct export of acidic polygalacturonan through Golgivesicles was also observed. Copyright 1999 Annals of BotanyCompany Cell walls, immunolocalization, hypocotyl, mung bean, pectin organization, Vigna radiata. 相似文献
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