排序方式: 共有37条查询结果,搜索用时 0 毫秒
1.
2.
Does elevated atmospheric CO2 concentrations affect wood decomposition? 总被引:10,自引:0,他引:10
This study was conducted to test the hypothesis that wood tissues generated under elevated atmospheric [CO2] have lower quality and subsequent reduced decomposition rates. Chemical composition and subsequent field decomposition rates
were studied for beech (Fagus sylvatica L.) twigs grown under ambient and elevated [CO2] in open top chambers. Elevated [CO2] significantly affected the chemical composition of beech twigs, which had 38% lower N and 12% lower lignin concentrations
than twigs grown under ambient [CO2]. The strong decrease in N concentration resulted in a significant increase in the C/N and lignin/N ratios of the beech wood
grown at elevated [CO2]. However, the elevated [CO2] treatment did not reduce the decomposition rates of twigs, neither were the dynamics of N and lignin in the decomposing
beech wood affected by the [CO2] treatment, despite initial changes in N and lignin concentrations between the ambient and elevated [CO2] beech wood.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
3.
J. Ben Keane Ross Morrison Niall P. McNamara Phil Ineson 《Global Change Biology Bioenergy》2019,11(12):1456-1470
Miscanthus x giganteus's efficacy as an energy crop relies on maintaining low greenhouse gas (GHG) emissions. As demand for Miscanthus is expected to rise to meet bioenergy targets, fertilizers and composts may be employed to increase yields, but will also increase GHG emissions. Manipulation experiments are vital to investigate the consequences of any fertilizer additions, but there is currently no way to measure whole‐plant GHG fluxes from crops taller than 2.5 m, such as Miscanthus, at the experimental plot scale. We employed a unique combination of eddy covariance (EC), soil chambers and an entirely new automated chamber system, SkyBeam, to measure high frequency (ca. hourly) fluxes of carbon dioxide (CO2), methane (CH4) and nitrous oxide (N2O) from a Miscanthus crop amended with green compost. Untreated controls were also monitored in a fully replicated experimental design. Net ecosystem exchange (NEE) of CO2 was partitioned into soil respiration (Rs), gross primary productivity (GPP) and ecosystem respiration, and the crop was harvested to determine the effect of compost on crop productivity. Compost increased NEE emissions by 100% (p < .05), which was the result of a 20% increase of Rs (p < .06) and a 32% reduction in GPP (p < .05) and biomass of 37% (p < .06). Methane fluxes were small and unaffected by compost addition. N2O emissions increased 34% under compost during an emission event; otherwise, fluxes were low and often negative, even under dry conditions. Diurnal variation in N2O fluxes, with uptake during the day and emission at night was observed. These fluxes displayed a negative relationship with soil temperature and a hitherto undescribed diurnal temperature hysteresis. We conclude that compost addition negatively affected the productivity and environmental effects of Miscanthus cultivation during the first year following application. 相似文献
4.
Root production and turnover in an upland grassland subjected to artificial soil warming respond to radiation flux and nutrients, not temperature 总被引:11,自引:0,他引:11
A. H. Fitter G. K. Self T. K. Brown D. S. Bogie J. D. Graves D. Benham P. Ineson 《Oecologia》1999,120(4):575-581
Root demographic processes (birth and death) were measured using minirhizotrons in the soil warming experiments at the summit
of Great Dun Fell, United Kingdom (845 m). The soil warming treatment raised soil temperature at 2 cm depth by nearly 3°C.
The first experiment ran for 6 months (1994), the second for 18 (1995–1996). In both experiments, heating increased death
rates for roots, but birth rates were not significantly increased in the first experiment. The lack of stimulation of death
rate in 1996 is probably an artefact, caused by completion of measurements in late summer of 1996, before the seasonal demography
was concluded: root death continued over the winter of 1995–1996. Measurements of instantaneous death rates confirmed this:
they were accelerated by warming in the second experiment. In the one complete year (1995–1996) in which measurements were
taken, net root numbers by the end of the year were not affected by soil warming. The best explanatory environmental variable
for root birth rate in both experiments was photosynthetically active radiation (PAR) flux, averaged over the previous 5 (first
experiment) or 10 days (second experiment). In the second experiment, the relationship between birth rate and PAR flux was
steeper and stronger in heated than in unheated plots. Death rate was best explained by vegetation temperature. These results
provide further evidence that root production acclimates to temperature and is driven by the availability of photosynthate.
The stimulation of root growth due to soil warming was almost certainly the result of changes in nutrient availability following
enhanced decomposition.
Received: 4 May 1999 / Accepted: 18 May 1999 相似文献
5.
Elevated CO<Subscript>2</Subscript>, litter chemistry,and decomposition: a synthesis 总被引:10,自引:0,他引:10
Richard J. Norby M. Francesca Cotrufo Philip Ineson Elizabeth G. O’Neill Josep G. Canadell 《Oecologia》2001,127(2):153-165
The results of published and unpublished experiments investigating the impacts of elevated [CO2] on the chemistry of leaf litter and decomposition of plant tissues are summarized. The data do not support the hypothesis that changes in leaf litter chemistry often associated with growing plants under elevated [CO2] have an impact on decomposition processes. A meta-analysis of data from naturally senesced leaves in field experiments showed that the nitrogen (N) concentration in leaf litter was 7.1% lower in elevated [CO2] compared to that in ambient [CO2]. This statistically significant difference was: (1) usually not significant in individual experiments, (2) much less than that often observed in green leaves, and (3) less in leaves with an N concentration indicative of complete N resorption. Under ideal conditions, the efficiency with which N is resorbed during leaf senescence was found not to be altered by CO2 enrichment, but other environmental influences on resorption inevitably increase the variability in litter N concentration. Nevertheless, the small but consistent decline in leaf litter N concentration in many experiments, coupled with a 6.5% increase in lignin concentration, would be predicted to result in a slower decomposition rate in CO2-enriched litter. However, across the assembled data base, neither mass loss nor respiration rates from litter produced in elevated [CO2] showed any consistent pattern or differences from litter grown in ambient [CO2]. The effects of [CO2] on litter chemistry or decomposition were usually smallest under experimental conditions similar to natural field conditions, including open-field exposure, plants free-rooted in the ground, and complete senescence. It is concluded that any changes in decomposition rates resulting from exposure of plants to elevated [CO2] are small when compared to other potential impacts of elevated [CO2] on carbon and N cycling. Reasons for experimental differences are considered, and recommendations for the design and execution of decomposition experiments using materials from CO2-enrichment experiments are outlined. 相似文献
6.
Stable isotope probing analysis of the influence of liming on root exudate utilization by soil microorganisms 总被引:3,自引:0,他引:3
Rangel-Castro JI Killham K Ostle N Nicol GW Anderson IC Scrimgeour CM Ineson P Meharg A Prosser JI 《Environmental microbiology》2005,7(6):828-838
Rhizosphere microorganisms play an important role in soil carbon flow, through turnover of root exudates, but there is little information on which organisms are actively involved or on the influence of environmental conditions on active communities. In this study, a 13CO2 pulse labelling field experiment was performed in an upland grassland soil, followed by RNA-stable isotope probing (SIP) analysis, to determine the effect of liming on the structure of the rhizosphere microbial community metabolizing root exudates. The lower limit of detection for SIP was determined in soil samples inoculated with a range of concentrations of 13C-labelled Pseudomonas fluorescens and was found to lie between 10(5) and 10(6) cells per gram of soil. The technique was capable of detecting microbial communities actively assimilating root exudates derived from recent photo-assimilate in the field. Denaturing gradient gel electrophoresis (DGGE) profiles of bacteria, archaea and fungi derived from fractions obtained from caesium trifluoroacetate (CsTFA) density gradient ultracentrifugation indicated that active communities in limed soils were more complex than those in unlimed soils and were more active in utilization of recently exuded 13C compounds. In limed soils, the majority of the community detected by standard RNA-DGGE analysis appeared to be utilizing root exudates. In unlimed soils, DGGE profiles from 12C and 13C RNA fractions differed, suggesting that a proportion of the active community was utilizing other sources of organic carbon. These differences may reflect differences in the amount of root exudation under the different conditions. 相似文献
7.
The effects of nitrogen (N) fertilisation and elevated [CO2] on lipid biosynthesis and carbon isotope discrimination in birch (Betula pendula Roth.) transplants were evaluated using seedlings grown with and without N fertiliser, and under two concentrations of atmospheric
CO2 (ambient and ambient+250 μmol mol-1) in solar dome systems. N fertilisation decreased n-fatty acid chain length (18:0/16:0) and the ratios of α-linolenate (18:2)/linoleate (18:1), whereas elevated [CO2] showed little effect on n-fatty acid chain length, but decreased the unsaturation (18:2+18:1)/18:0. Both N fertilisation and elevated [CO2] increased the quantity of leaf wax n-alkanes, whilst reducing that of n-alkanols by 20–50%, but had no simple response in fatty acid concentrations. 13C enrichment by 1–2.5‰ under N fertilisation was observed, and can be attributed to both reduced leaf conductance and increased
photosynthetic consumption of CO2. Individual n-alkyl lipids of different chain length show consistent pattern of δ13C values within each homologue, but are in general 5–8‰ more depleted in 13C than the bulk tissues. Niether nitrogen fertilisation and elevated CO2 influenced the relationship between carbon isotope discrimination of the bulk tissue and the individual lipids.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
8.
Effects of climate change on nitrogen dynamics in upland soils. 2. A soil warming study 总被引:7,自引:0,他引:7
Philip Ineson David G. Benham Janet Poskitt Anthony F. Harrison Kenneth Taylor Clive Woods 《Global Change Biology》1998,4(2):153-161
A new warming technique has been developed in a field experimental study of the potential effects of climatic change on N leaching from hill land plant/soil systems. Thermocouple compensating cable has been utilized to provide a small cross-section, flexible, low voltage heating cable, mounted on a framework of stainless steel mesh, to provide uniform heating at the vegetation/soil interface of zero-tension lysimeters and surrounding turf. We describe a specially designed heat controller capable of maintaining a temperature differential of 3 °C above ambient at a soil depth of 0.8 cm. The equipment raises temperatures down the soil profile and within the grass sward, whilst tracking normal diurnal temperature variation. Results presented here illustrate the efficacy of the warming technique, together with the consequences for the release of nitrate from lysimeters. The responses of soil solution concentrations of nitrate varied markedly between soil types, but showed a significant decrease in the brown earth during the first 5 months of additional heating. This suggests that increased nutrient release is masked by plant uptake in this soil, but the responses in the other two soils were less marked. 相似文献
9.
10.
D. E. Bignell H. Oskarsson J. M. Anderson P. Ineson T. G. Wood 《Journal of Zoology》1983,201(4):445-480
The morphology, histology and ultrastructure of the mesenteric and proctodaeal components of the mixed segment are described in detail, together with the disposition of the associated gut musculature, the patterns of peristalsis and the streaming movements of soil particles in the gut lumen. The mesenteric epithelium is characterized by very extensive basal infoldings which are associated with a large population of mitochondria, but evidence of significant protein synthesis and secretion is lacking. It is proposed that this tissue is a transporting epithelium whose major function is the secretion of a copious, K+ -rich fluid into the intestinal lumen to irrigate the hindgut (proctodaeum) and that alkaline hydrolysis of humic fractions by this fluid is an essential component of digestion.
Malpighian tubules are present, but do not participate in fluid excretion. Since the hind-guts of soil-feeding termites are exceptionally voluminous and elongated and the major symbiotic micro-organisms occupy fixed positions by virtue of their attachment to the lining cuticle, it is argued that flushing is necessary to sustain microbial activity and for the recovery of end-products by the host. A survey of the protodaeal epithelium suggests that the anterior colon (P4a) is the most likely site of fluid reabsorption and that the wall of the hindgut anterior to this site is impermeable. The greater degree of ultrastructural differentiation of the mixed segment of Cubitermes severus and its more complete morphological separation from the midgut suggests that this species is a more advanced soil-feeder than Procubitermes aburiensis. 相似文献
Malpighian tubules are present, but do not participate in fluid excretion. Since the hind-guts of soil-feeding termites are exceptionally voluminous and elongated and the major symbiotic micro-organisms occupy fixed positions by virtue of their attachment to the lining cuticle, it is argued that flushing is necessary to sustain microbial activity and for the recovery of end-products by the host. A survey of the protodaeal epithelium suggests that the anterior colon (P4a) is the most likely site of fluid reabsorption and that the wall of the hindgut anterior to this site is impermeable. The greater degree of ultrastructural differentiation of the mixed segment of Cubitermes severus and its more complete morphological separation from the midgut suggests that this species is a more advanced soil-feeder than Procubitermes aburiensis. 相似文献