Long-term effects of a doubled atmospheric CO2 concentration on the CAM species Agave deserti

To examine the effects of a doubled atmospheric CO₂ concentrationand other aspects of global climate change on a common CAM speciesnative to the Sonoran Desert, Agave deserti was grown under370 and 750 µmol CO₂ mol^–1 air and gas exchangewas measured under various environmental conditions. Doublingthe CO₂ concentration increased daily net CO₂ uptake by 49%throughout the 17 months and decreased daily transpiration by24%, leading to a 110% increase in water-use efficiency. Underthe doubled CO₂ concentration, the activity of ribulose-1,5-bisphosphatecarboxylase/oxygenase (Rubisco) was 11% lower, phosphoenolpyruvatecarboxylase was 34% lower, and the activated:total ratio forRubisco was 25% greater than under the current CO₂ concentration.Less leaf epicuticular wax occurred on plants under the doubledCO₂ concentration, which decreased the reflectance of photosyntheticphoton flux (PPF); the chlorophyll content per unit leaf areawas also less. The enhancement of daily net CO₂ uptake by doublingthe CO₂ concentration increased when the PPF was decreased below25 mol m^–2 d^–1 when water was withheld, and whenday/night temperatures were below 17/12 C. More leaves, eachwith a greater surface area, were produced per plant under thedoubled CO₂ concentration. The combination of increased totalleaf surface area and increased daily net CO₂ uptake led toan 88% stimulation of dry mass accumulation under the doubledCO₂ concentration. A rising atmospheric CO₂ concentration, togetherwith accompanying changes in temperature, precipitation, andPPF, should increase growth and productivity of native populationsof A. deserti. Key words: Crassulacean acid metabolism, gas exchange, global climate change, Sonoran Desert     

Long-term effects of CO2 enrichment and temperature increase on a temperate grass sward

Perennial ryegrass swards were grown in large containers on a soil and were exposed during two years to elevated (700 L L^-1) or ambient atmospheric CO₂ concentration at outdoor temperature and to a 3 °C increase in air temperature in elevated CO₂. The nitrogen nutrition of the grass sward was studied at two sub-optimal (160 and 530 kg N ha^-1 y^-1) and one non-limiting (1000 kg N ha^-1 y^-1) N fertilizer supplies. At cutting date, elevated CO₂ reduced by 25 to 33%, on average, the leaf N concentration per unit mass. Due to an increase in the leaf blade weight per unit area in elevated CO₂, this decline did not translate for all cuts in a lower N concentration per unit leaf blade area. With the non-limiting N fertilizer supply, the leaf N concentration (% N) declined with the shoot dry-matter (DM) according to highly significant power models in ambient (% N=4.9 DM^-0.38) and in elevated (%N=5.3 DM^-0.52) CO₂. The difference between both regressions was significant and indicated a lower critical leaf N concentration in elevated than in ambient CO₂ for high, but not for low values of shoot biomass. With the sub-optimal N fertilizer supplies, the nitrogen nutrition index of the grass sward, calculated as the ratio of the actual to the critical leaf N concentration, was significantly lowered in elevated CO₂. This indicated a lower inorganic N availability for the grass plants in elevated CO₂, which was also apparent from the significant declines in the annual nitrogen yield of the grass sward and in the nitrate leaching during winter. For most cuts, the harvested fraction of the plant dry-matter decreased in elevated CO₂ due, on average, to a 45–52% increase in the root phytomass. In the same way, a smaller share of the plant total nitrogen was harvested by cutting, due, on average, to a 25–41% increase in the N content of roots. The annual means of the DM and N harvest indices were highly correlated to the annual means of the nitrogen nutrition index. Changes in the harvest index and in the nitrogen nutrition index between ambient and elevated CO₂ were also positively correlated. The possible implication of changes in the soil introgen cycle and of a limitation in the shoot growth potential of the grass in elevated. CO₂ is discussed.Abbreviations 350 outdoor climate - 700 outdoor climate +350 L L^-1[CO₂] - 700+ outdoor climate +350 L L^-1 (CO₂) and +3 °C - N-- low N fertilizer supply - N+ high N fertilizer supply - N++ non-limiting N fertilizer supply - DM dry-matter     

Long-term effects of CO2 enrichment and temperature increase on the carbon balance of a temperate grass sward

Perennial ryegrass swards were grown in large containers ona soil, at two N fertilizer supplies and were exposed duringtwo years in highly ventilated plastic tunnels to elevated (700µl l^–1 [CO₂) or ambient atmospheric CO₂ concentrationat outdoor temperature and to a 3C increase in air temperaturein elevated CO₂. The irrigation was adjusted to obtain a soilwater deficit during summer. The daily net C assimilation wasincreased in elevated CO₂ by 29 and 36% at the low and highN supplies, respectively. Canopies grown in elevated CO₂ for14 to 27 months photosynthetized significantly less rapidly,in both elevated and normal CO₂ concentrations, than their counterpartsdeveloped in ambient CO₂ but the magnitude of this effect wassmall (–8% to –13%). Elevated CO₂ resulted in alarge increase in the fructan concentration in the pseudostemsand laminae (+46% and +189%, respectively). In elevated CO₂,the hexose and sucrose pool increased by 28% in the laminae,whereas it did not vary significantly in the pseudo-stems. A3C temperature increase in elevated CO₂ did not affect significantlythe average WSC concentrations in the pseudostems and laminae.The elevated CO₂ effects on the net C assimilation and on thenocturnal shoot respiration were greater in summer than in spring.On average, a 35% increase in the below-ground respiration wasmeasured in elevated CO₂. At the high N supply, a 3C increasein air temperature led to a decline in the below-ground respirationdue to a low soil moisture. The below-ground carbon storagewas increased by 32% and 96% in elevated CO₂ at the low andhigh N supplies, respectively, with no significant increasedtemperature effect. The role for the below-ground carbon storageof CO₂-induced changes in the root fraction of the grass andof temperature-induced changes in the moisture content of thesoil are discussed. Key words: Climate change, grassland, gas exchange, carbohydrates, carbon cycle     

Long-term histologic follow-up of phenol face peels

Deep phenol peels were done on 11 middle-aged white women with severe actinic damage. Subsequently, face lifts were carried out after periods of 1.5 to 20 years. This made it possible to obtain a full-thickness specimen extending several centimeters on either side of the border between peeled and unpeeled skin. In contrast to the markedly abnormal elastotic appearance of unpeeled skin, a new band of connective tissue 2 to 3 mm in width was laid down in the subepidermal region. Fine elastic fibers formed a dense network in the band of regenerated collagen. The disarray and cytologic abnormalities of sun-damaged epidermis were also largely corrected. Melanocytes were not eliminated, but melanin synthesis was evidently impaired, accounting for the bleaching effects. The effects of a phenol peel are very long lasting and adequately account for the effacement of wrinkles and obliteration of actinic keratoses, mottling, and freckling.     

Scanning CO2 laser bacterial inactivation systems

AIMS: The performance of three scanning CO(2) laser inactivation systems was assessed and included: a gantry system, a rapidly rotating mirror and a low-power hybrid system combining an oscillating mirror and rotary motion of the sample. METHODS AND RESULTS: Escherichia coli and Staphylococcus aureus were the target organisms on stainless steel, nutrient agar or moist collagen film and the laser power was varied from 2 to 1060 W (two laser sources). In general, a threshold energy density was identified, above which no inactivation was observed because the scanning velocity was too high (10 cm s(-1) for stainless steel, 660 W). Reducing the velocity increased the inactivation process until complete inactivation was observed at 1.3 cm s(-1) (E. coli, approximately 10(6) CFU per sample) and 0.82 cm s(-1) (S. aureus, approximately 10(8) CFU per sample); consequently, S. aureus organisms showed a greater resistance to laser irradiation. For the nutrient agar and collagen samples, the averages of the width of clearing were measured as a function of the translation velocity and the rates of inactivation (I(R), cm(2) s(-1)) were found; an optimum velocity was observed that produced the maximum rate of inactivation. At a laser power of 1060 W, the maximum value of I(R) was 140 cm(2) s(-1) ( approximately 10(7) CFU cm(-2)) for S. aureus on collagen and slightly less on nutrient agar (114 cm(2) s(-1), estimated from a best-fit polynomial, r(2) = 0.98). CONCLUSIONS: A comparison of the low- and high-power lasers produced values of 0.09 cm(2) s(-1) W(-1) (i.e. I(R) per Watt delivered) for S. aureus on nutrient agar with the low-power laser at 13 W and on collagen 0.13 cm(2) s(-1) W(-1) for 1060 W. The rate of inactivation was found to be a function of the laser power, translation velocity and properties of the substrate media. The three laser inactivation systems successfully demonstrated the potential speed, efficiency and application of such systems. SIGNIFICANCE AND IMPACT OF THE STUDY: Laser scanning systems offer the potential for rapid and efficient inactivation of surfaces, eliminating the need for chemical treatment.     

Retinoic acid and CO2 laser resurfacing

The purpose of this study was to analyze the effect of retinoic acid on wound healing and depth of injury in an animal skin model resurfaced with a CO2 laser. The dorsal skin of 21 Hartley guinea pigs was divided into halves. One-half received a daily application of 0.05% retinoic acid for 28 days, whereas the other half served as the control. The animals were divided into three treatment groups of seven animals. Group A was laser resurfaced with one pass of the Coherent UltraPulse CO2 laser (300 mJ, 60 W, density 40 percent). Group B received two passes, and group C received three passes. Histologic studies were obtained before laser resurfacing and days 1, 4, and 7 after resurfacing. Depth of injury, thickness, number of squamous cell and granular cell layers, and epithelialization rates were measured. We found that the depth of injury was statistically less in animals pretreated with retinoic acid. Granular cells were thicker and more numerous at day 4 in pretreated animals but similar to controls by day 7. Animals pre-treated with retinoic acid overall seemed to heal wounds earlier. In conclusion, pretreatment with retinoic acid may reduce the depth of injury in laser resurfacing and speed healing rates.     

Benefits of the CO2 laser in oral hemangioma excision

Twenty-one patients with small localized oral cavity hemangiomas of the lips, tongue, and buccal mucosa are reported in this series. Although the lesions were not massive or high-flow/high-pressure vascular tumors, the simultaneous cutting and coagulation capabilities of the CO2 laser were demonstrated, rendering such excisional surgery more precisely and easily accomplished with a great deal less bleeding and a marked reduction in postoperative pain and edema. Many of the patients in this series were done as outpatients under local anesthesia. Results were acceptable and complications were minimal. Thus this laser is recommended both for the patient care and comfort aspects and the ability to render oral cavity hemangioma excisional surgery much more safely and easily done with a significant decrease in hospital utilization and overall medical expenses.     

CO2激光治疗重度宫颈糜烂

作者用ＣＯ２激光治疗了重度宫颈糜烂２９２例,单纯型２４例,颗粒型１６６例,乳突型１０２例。结果：２８２例获治愈（９６．２％）,其中２４９例（８５．２％）一次性痊愈,１０例好转,无一例无效。说明该疗法简便,迅速,无明显副作用,疗效显著,是治疗重度宫颈糜烂的有效方法。     

CO2 laser photoacoustic spectrum of methyl anthranylate

The spectrum of pure methyl anthranylate C₂H₂NO₂ (methyl 2-aminobenzoate),an important fragrant in the perfume industry, has been determinedin the 9 – 11 µm region of the i.r. portion in theelectromagnetic spectrum using a CO₂, laser photoacoustic spectrometercombined with phase sensitive detection. Large signals wereobserved with the simple experimental set-up used in this studyindicating the utility of this technique for quick on-line quantitativeand qualitative analysis. From the obtained data an ultimatesensitivity limit of several p.p.b.v. for methyl anthranylatein the air can be derived for the present system. However, furtherimprovements of the sensitivity, leading to the sub p.p.b.v.region, are readily anticipated by use of a more sophisticateddesign (multipass cell and improved quality of optical components).     

Light and scanning electron microscopic studies of the effects of CO2 laser on the palatine mucosa of rats

In order to verify the effects of CO2 laser on the palatine mucosa of rats, 15 animals were utilized. The animals were anaesthetized with thionembutal by intra-peritoneal injection and the palatine mucosa of each animal was irradiated with a single pulse of 10 W. The results showed that immediately after the irradiation of CO2 laser, the formation of small cavities is observed. The wound healing post operationem is gradually in 1 week. The region is totally occupied by neoformed connective tissue and epithelial cells. Numerous polymorphonuclear cells and fibroblasts may be seen between the neoformed collagen fibres.     

CO2激光治疗26例甲真菌病临床观察

目的探讨CO2激光治疗甲真菌病的临床疗效。方法对44例甲真菌病病例共92只病甲采用每2周1次CO2激光烧灼打孔,疗程共24周。结果治疗有效率90%。结论CO2激光治疗甲真菌病安全、有效、副作用小。     

Microsurgical anastomosis of rat carotid arteries with the CO2 laser

In order to further evaluate the role of lasers in microvascular tissue closure, we modified an existing CO2 surgical laser (Xanar XA-20) by adding a partially reflecting mirror to attenuate the beam. This allowed the laser to operate at an output of approximately 100 mW, which was appropriate to achieve microvascular closures. In each of 43 rats, one carotid artery was transected and then anastomosed with standard suture technique with 10 to 12 simple interrupted sutures of size 10-0 Ethilon nylon suture (Ethicon, Inc.). The opposite carotid in each rat was anastomosed by the placement of three stay sutures followed by the application of laser irradiation to the tissue between the stay sutures at 90 to 100 mW, spot size of 0.2 mm, pulse duration 0.2 seconds, approximately 20 to 30 pulses per anastomosis. In vivo test periods were 1 hour, 1 day, 3 days, 7 days, 10 days, 14 days, 28 days, 91 days, and 180 days. All anastomoses were evaluated for patency, and selected samples were utilized for light microscopy, and mechanical testing (intraluminal pressure raised to 300 mmHg). It was determined that similar patency rates and slightly faster time to perform the same procedure could be achieved with the use of the low-powered CO2 laser. However, histologic evidence of significant medial damage raises concern about the long-term risk of a higher aneurysm rate. Vessel damage and the lack of simple intraoperative methods to verify the quality of the laser technique restrict these authors from advocating the clinical introduction of the procedure until further advances are made.(ABSTRACT TRUNCATED AT 250 WORDS)     

Long-term effects of elevated atmospheric CO2 on below-ground biomass and transformations to soil organic matter in grassland

We determined the effects of elevated [CO₂] on the quantity and quality of below-ground biomass and several soil organic matter pools at the conclusion of an eight-year CO₂ enrichment experiment on native tallgrass prairie. Plots in open-top chambers were exposed continuously to ambient and twice-ambient [CO₂] from early April through late October of each year. Soil was sampled to a depth of 30 cm beneath and next to the crowns of C4 grasses in these plots and in unchambered plots. Elevated [CO₂] increased the standing crops of rhizomes (87%), coarse roots (46%), and fibrous roots (40%) but had no effect on root litter (mostly fine root fragments and sloughed cortex material >500 μm). Soil C and N stocks also increased under elevated [CO₂], with accumulations in the silt/clay fraction over twice that of particulate organic matter (POM; >53 μm). The mostly root-like, light POM (density ≤1.8 Mg m^-3) appeared to turn over more rapidly, while the more amorphous and rendered heavy POM (density >1.8 Mg m^-3) accumulated under elevated [CO₂]. Overall, rhizome and root C:N ratios were not greatly affected by CO₂ enrichment. However, elevated [CO₂] increased the C:N ratios of root litter and POM in the surface 5 cm and induced a small but significant increase in the C:N ratio of the silt/clay fraction to a depth of 15 cm. Our data suggest that 8 years of CO₂ enrichment may have affected elements of the N cycle (including mineralization, immobilization, and asymbiotic fixation) but that any changes in N dynamics were insufficient to prevent significant plant growth responses. This revised version was published online in June 2006 with corrections to the Cover Date.     

Long-term responses of the green-algal lichen Parmelia caperata to natural CO2 enrichment

Acclimation to elevated CO₂ was investigated in Parmelia caperata originating from the vicinity of a natural CO₂ spring, where the average daytime CO₂ concentration was 729 ± 39 μmol mol⁻¹ dry air. Thalli showed no evidence of a down-regulation in photosynthetic capacity following long-term exposure to CO₂ enrichment in the field; carboxylation efficiency, total Ribulose bisphosphate carboxylase/oxygenase (Rubisco) content, apparent quantum yield of CO₂ assimilation, and the light-saturated rate of CO₂ assimilation (measured under ambient and saturating CO₂ concentrations) were similar in thalli from the naturally CO₂ enriched site and an adjacent control site where the average long-term CO₂ concentration was about 355 μmol mol⁻¹. Thalli from both CO₂ environments exhibited low CO₂ compensation points and early saturation of CO₂ uptake kinetics in response to increasing external CO₂ concentrations, suggesting the presence of an active carbon-concentrating mechanism. Consistent with the lack of significant effects on photosynthetic metabolism, no changes were found in the nitrogen content of thalli following prolonged exposure to elevated CO₂. Detailed intrathalline analysis revealed a decreased investment of nitrogen in Rubisco in the pyrenoid of algae located in the elongation zone of thalli originating from elevated CO₂, an effect associated with a reduction in the percentage of the cell volume occupied by lipid bodies and starch grains. Although these differences did not affect the photosynthetic capacity of thalli, there was evidence of enhanced limitations to CO₂ assimilation in lichens originating from the CO₂-enriched site. The light-saturated rate of CO₂ assimilation measured at the average growth CO₂ concentration was found to be significantly lower in thalli originating from a CO₂-enriched atmosphere compared with that of thalli originating and measured at ambient CO₂. At lower photosynthetic photon flux densities, the light compensation point of net CO₂ assimilation was significantly higher in thalli originating from elevated CO₂, and this effect was associated with higher usnic acid content. Received: 8 May 1998 / Accepted: 22 January 1999     

Clinical experience with the CO2 laser during carpal tunnel decompression

Scar tissue formation along the cut edges of the transverse carpal ligament has been found to be among the primary causes for persistent median nerve compression following carpal tunnel release with the steel scalpel. Since laser surgery has been shown to be effective in reducing incisional inflammatory reactions, hypertrophic scarring, and postoperative pain and edema, in achieving better hemostasis, the application of the carbon dioxide laser may be a more efficient surgical tool than the steel scalpel for carpal tunnel release. In 46 cases of carpal tunnel syndrome, the carbon dioxide laser was utilized to vaporize the transverse carpal ligament and seal its edges. The patients were then reevaluated at 1 week, 2 weeks, 6 months, 1 year, and 2 years. No intraoperative complications were encountered. Patients reported minimal postoperative pain, rapid return of sensibility, decreased paresthesia, and increased motor function. After 2 years, there have been no recurrent symptoms of median nerve compression in these patients.