1. The response of three tropical cladocerans to a gradient of resource quality was compared in a series of growth bioassays using seston collected from five lakes of different depth and trophic structure in Michigan, U.S.A. To assess the food quality in terms of digestibility, assimilation experiments were performed with 32P‐labelled seston from the same lakes. Animals were also analysed for P‐content in their tissues at the end of these assays. 2. In general, assimilation efficiency was higher when animals fed on seston from shallow compared to deep lakes, and was significantly correlated with growth rates, suggesting that shallow lakes have the best food resources in terms of digestibility and P availability. 3. Results also showed that all cladoceran species responded similarly to the resource gradient, with lower growth rates in deep lakes and higher growth rates in shallow lakes, although the strength of response (sensitivity) was different among the species tested. 4. The cladoceran Moina micrura was the most sensitive species, and also displayed the highest P‐content and maximal growth rate, a pattern consistent with the growth rate hypothesis. 5. However, seston C : P ratio and growth rates in the different resources did not correlate with the animals’ P‐contents, showing an uncoupling between RNA‐phosphorus demands for growth and seston food quality. 6. In conclusion, our results support the idea that digestion resistance in algae is a major constraint to cladocerans in natural plankton communities. 相似文献
Four rumen and duodenum cannulated, Holstein lactating cows were used in a change-over design to determine the effects of NaOH, formaldehyde (HCHO) or urea treated barley on disappearance of dry matter (DM), crude protein (CP), amino acids (AA), NDF, ADF and starch of barley in the rumen, post-abomasal (PAT) and total tract by the mobile nylon bag technique. Experimental treatments were coarse milled barley, barley treated with 35 g NaOH/kg, barley treated with 4 g formaldehyde/kg and barley treated with 35 g urea/kg, in which all chemical treated barley was milled coarse before feeding.
NaOH treatment reduced concentrations of lysine and cystine in the barley grain. All chemical treatments decreased rumen disappearances of barley CP but only NaOH and formaldehyde treatments also decreased total AA and some of the AA disappearances in the rumen. All chemical treatments increased DM, OM, CP, starch, NDF and ADF disappearance of barley in the PAT, but only NaOH and formaldehyde treatments increased total AA and most individual AA disappearances in the PAT. Chemical treatments increased disappearance of starch, methionine and glycine in the total tract (P<0.05).
Rumen disappearance of TAA was lower than for CP but PAT disappearance of TAA was more than for CP and finally total tract disappearance of TAA was more than for CP. Individual AA in barley disappeared at different rates in the rumen and PAT. Consequently, the proportion of digesta CP and AAs of barley, entering the intestine were changed by the chemical treatments. We concluded that, appropriate treatment of barley with NaOH or HCHO were provided substantial protection of CP and individual AA from rumen digestion and increased disappearance of most of barley nutrients in PAT, but, NaOH treatment reduced the AA quality of barley. Consequently, formaldehyde can therefore be considered better than NaOH and urea for treatment of barley grain. 相似文献
It has been reported that single exposure of rats of low-level formaldehyde vapor concentrations causes significant alteration in their motor activity in the inhalation chamber. In this study, we determined the effects of formaldehyde on the locomotor activity and behavior of adult male and female Lew. 1K rats in an open field two hours after termination of a single two hours lasting inhalative exposure to approximately 0.1, 0.5, or 5 ppm. Following behavioral parameters were quantitatively examined: numbers of crossed floor squares, occurrence frequencies of air and floor sniffing, grooming, rearing, and wall climbing, as well as the incidence of fecal boli. In the open field situation, the males of all formaldehyde groups crossed significantly lower numbers of floor squares. Furthermore, significant decrease in the occurrence frequencies of floor sniffing, rearing, and wall climbing were observed. Within the female rat groups exposed to 0.5 or 5 ppm formaldehyde, a significantly decreased numbers of crossed squares were registered, while this parameter remained unchanged in the 0.1 ppm group. Other parameters were also affected by the formaldehyde inhalation (e.g. significant increase in the occurrence frequencies of air sniffing in the 0.1 and 0.5 ppm groups and significant decrease in the numbers of floor sniffing in the 0.5 and 5 ppm groups, respectively). The incidence of fecal boli was not affected in any exposure group neither in males nor in females. It is concluded from the results obtained that formaldehyde significantly affects the locomotor behavior of adult male and female rats in the open field after a single inhalative exposure to the above mentioned concentrations. 相似文献
Cytokinin (CK) receptors have different affinities for certain ligands, and consequently, studies of the plant's response to CK analogues constitute a good approach to identify active compounds that trigger specific plant responses. In this study, N6 and N6,N6-substituted CK analogues were synthesized and their CK-like activity was examined in the Amaranthus betacyanin and the bacterial receptor assay. The compounds showed CK-like activities that were not always associated with their binding affinity to the Arabidopsis receptors AHK3 and CRE1/AHK4. The highest level of activity in both bioassays was obtained for the N6-alkylaminopurines, which showed an especially high binding affinity to AHK3. In contrast to previously published data, we found remarkable activity of N6,N6-alkylbenzylaminopurines in the Amaranthus betacyanin bioassay, which was not associated with their binding affinity to the tested receptors. The N6,N6-substituted CK that showed the highest activity at the lowest concentration, N6,N6-methylbenzylaminopurine (BAP-C1), was studied to determine its effect on different leaf parameters of whole Amaranthus plants, with benzylaminopurine (BAP) used as standard compound. The interaction with ethylene was examined in plants supplied with the ethylene-synthesis inhibitor aminooxiacetic acid (AOA). After 3 d, the CKs supplied in the solution culture exerted effects on leaf dry weight and gas-exchange parameters. These effects of exogenous CKs are suggested to be ethylene-synthesis dependent. 相似文献
This abstract is a prologue to this paper. Prior to his health failing, Martin Gibbs began writing remembrances of his education
and beginning a science career, particularly on the peaceful uses of nuclear radiation, at the U.S. Brookhaven National Laboratory
(BNL), Camp Upton, NY. Two years before his death Martin provided one of us (Govindjee) a draft text narrating his science
beginnings in anticipation of publication in Photosynthesis Research. Govindjee edited his draft and returned it to him. Later, when it became difficult for him to complete it, he phoned Govindjee
and expressed the desire that Govindjee publish this story, provided he kept it close to his original. Certain parts of Martin’s
narrations have appeared without references (Gibbs 1999). The Gibbs family made a similar request since the narrations contained numerous early personal accounts. Clanton Black
recently presented an elegant tribute on Martin Gibbs and his entire science career (Black 2008). Clanton was given the draft, which he and Govindjee then agreed to finish. This chronicle is their effort to place Gibbs’s
narrations about his education and his maturation scientifically, in context with the beginnings of biological chemistry work
with carbon-14 at the BNL (see Gibbs 1999). Further, these events are placed in context with those times of newly discovered radioisotopes which became available as
part of the intensive nuclear research of World War II (WW II). Carbon-14, discovered during WW II nuclear research in 1940,
was extremely useful and quickly led to the rapid discovery of new carbon metabolism pathways and biochemical cycles, e.g.,
photosynthetic carbon assimilation, within a decade after WW II.
The aim of this study was to assess the temperature response of photosynthesis in rubber trees (Hevea brasiliensis Müll. Arg.) to provide data for process-based growth modeling, and to test whether photosynthetic capacity and temperature
response of photosynthesis acclimates to changes in ambient temperature. Net CO2 assimilation rate (A) was measured in rubber saplings grown in a nursery or in growth chambers at 18 and 28°C. The temperature response of A was measured from 9 to 45°C and the data were fitted to an empirical model. Photosynthetic capacity (maximal carboxylation
rate, Vcmax, and maximal light driven electron flux, Jmax) of plants acclimated to 18 and 28°C were estimated by fitting a biochemical photosynthesis model to the CO2 response curves (A–Ci curves) at six temperatures: 15, 22, 28, 32, 36 and 40°C. The optimal temperature for A (Topt) was much lower in plants grown at 18°C compared to 28°C and nursery. Net CO2 assimilation rate at optimal temperature (Aopt), Vcmax and Jmax at a reference temperature of 25°C (Vcmax25 and Jmax25) as well as activation energy of Vcmax and Jmax (EaV and EaJ) decreased in individuals acclimated to 18°C. The optimal temperature for Vcmax and Jmax could not be clearly defined from our response curves, as they always were above 36°C and not far from 40°C. The ratio Jmax25/Vcmax25 was larger in plants acclimated to 18°C. Less nitrogen was present and photosynthetic nitrogen use efficiency (Vcmax25/Na) was smaller in leaves acclimated to 18°C. These results indicate that rubber saplings acclimated their photosynthetic characteristics
in response to growth temperature, and that higher temperatures resulted in an enhanced photosynthetic capacity in the leaves,
as well as larger activation energy for photosynthesis. 相似文献
Progress in the study of stable isotope discrimination in carbon assimilation by aquatic macrophytes has been slower than for other groups of primary producers, such as phytoplankton and terrestrial plants. A probable reason has been the methodologies employed for such a study: field collections or long‐term incubations, both relying on the observation of changes in carbon isotope composition of plant tissue. Here, we present a short‐term incubation method based on the change in carbon stable isotope composition in water. Its fundamental advantage over the other approaches is that the change in stable isotope composition in water in a closed system is much faster than in the plant tissue. We applied the method to investigate the relationship between carbon assimilation intensity and isotope discrimination. The results included a relatively small discrimination in respiration, a significant influence of carbon assimilation rate on discrimination, and the suggestion of HCO3? or CO2 uptake in photosynthesis. The information gathered using this method would be difficult to obtain in other ways, and so we believe that it should contribute to a better understanding of the physiology and ecology of aquatic macrophytes. 相似文献
Two different formaldehyde-degrading microorganisms, Pseudomonas putida and Methylobacterium extorquens, were isolated from calcium carbonate slurry containing the formaldehyde-releasing biocide (ethylenedioxy) dimethanol. Their relative formaldehyde biodegradation and formic acid production kinetics were studied in broth and in calcium carbonate slurry for each microorganism individually, as well as in mixed cultures. Furthermore, the minimal inhibition concentration (MIC) was determined. The results indicated that in slurry, M. extorquens is more tolerant of formaldehyde than P. putida. In slurry, microbial-induced oxidation of formaldehyde caused a temporary accumulation of formic acid, which is presumed to be responsible for pH drop and destabilisation of the calcium carbonate slurry suspension systems. In addition, the residual formaldehyde concentration was observed to drive dominance and recovery of individual formaldehyde-resistant microorganisms in the slurry. Overall, this investigation indicated that biodegradation of formaldehyde in calcium carbonate slurry is brought about by alternating dominance of bacterial genera of mixed formaldehyde-resistant microbial populations. 相似文献