The study on the respiration and production of bacterioplankton in five shrimp cultural enclosure ecosystems showed that the production and respiration fluctuated from 90 to 909 and 248 to 1785 μgC·L -1 ·d ...The study on the respiration and production of bacterioplankton in five shrimp cultural enclosure ecosystems showed that the production and respiration fluctuated from 90 to 909 and 248 to 1785 μgC·L -1 ·d -1 , respectively. There existed a significant positive relationship between production and respiration. The daily P/B ratio of bacterioplancton averaged 0.93 d -1 , and its production efficiency averaged 0.34.展开更多
Objective: To investigate the diagnos- tic and therapeutic effect ofbronchofiberscopy in the manage- ment of severe thoracic trauma. Methods: A retrospective study was conducted on 207 consecutive patients with sev...Objective: To investigate the diagnos- tic and therapeutic effect ofbronchofiberscopy in the manage- ment of severe thoracic trauma. Methods: A retrospective study was conducted on 207 consecutive patients with severe thoracic trauma enrolled in our hospital between January 2008 and June 2012. During the period, 488 bronchofiberscopies and lavages were done. The bronchofiberscope was inserted through tracheal inci- sion (282), nasal cavity (149) and oral cavity (57). Intensive SaO2 monitoring as well as blood gas analysis were per- formed pre-, intra- and postoperatively. Simultaneously oxy- gen therapy or ventilatory support was given. Sputum cul- ture was done intraoperatively. Results: Diagnosis in 207 cases was confirmed by bronchofiberscopy. The result of sputum culture was posi- tive in 78 cases. Lavage was performed on 156 cases. SaO2 significantly increased after bronchofiberscopies as well as lavages and PaO2 obviously improved 2 h after surgery (both P〈0.05). Heart rate and respiratory rate decreased. There was no bronchofiberscopy-related death. Conclusion: Bronchofiberscopy plays an important role in the diagnosis and treatment of severe thoracic trauma, which can not only timely diagnose bronchial injury and collect deep tracheal sputum for bacterial culture but also effectively remove foreign body, secretion, blood and spu- tum crust in the airway, manage obstructive atelectasis and pneumonia, and signifcantly improve respiratory fimction and treatment outcome.展开更多
Aims Black spruce(Picea mariana[Mill.]B.S.P.)and white spruce(Picea glauca[Moench]Voss.)are congeneric species.Both are moderately shade tolerant and widely distributed across North American boreal forests.Methods To ...Aims Black spruce(Picea mariana[Mill.]B.S.P.)and white spruce(Picea glauca[Moench]Voss.)are congeneric species.Both are moderately shade tolerant and widely distributed across North American boreal forests.Methods To understand light effects on their ecophysiological responses to elevated CO_(2),1-year-old seedlings were exposed to 360µmol mol−1 and 720µmol mol−1 CO_(2)at three light conditions(100%,50%and 30%of full light in the greenhouse).Foliar gas exchanges were measured in the mid-and late-growing season.Important Findings Elevated CO_(2)increased net photosynthesis(Pn)and photosynthetic water use efficiency,but it reduced stomatal conductance and transpiration.The stimulation of photosynthesis by elevated CO_(2)was greatest at 50%light and smallest at 100%.Photosynthesis,maximum carboxylation rate(Vcmax)and light-saturated rate of electron transport(Jmax)all decreased with decreasing light.Elevated CO_(2)significantly reduced Vcmax across all light treatments and both species in mid-growing season.However,the effect of elevated CO_(2)became insignificant at 30%light later in the growing season,with the response being greater in black spruce than in white spruce.Elevated CO_(2)also reduced Jmax in white spruce in both measurements while the effect became insignificant at 30%light later in the growing season.However,the effect on black spruce varied with time.Elevated CO_(2)reduced Jmax in black spruce in mid-growing season in all light treatments and the effect became insignificant at 30%light later in the growing season,while it increased Jmax later in the season at 100%and 50%light.These results suggest that both species benefited from elevated CO_(2),and that the responses varied with light supply,such that the response was primarily physiological at 100%and 50%light,while it was primarily morphological at 30%light.展开更多
文摘The study on the respiration and production of bacterioplankton in five shrimp cultural enclosure ecosystems showed that the production and respiration fluctuated from 90 to 909 and 248 to 1785 μgC·L -1 ·d -1 , respectively. There existed a significant positive relationship between production and respiration. The daily P/B ratio of bacterioplancton averaged 0.93 d -1 , and its production efficiency averaged 0.34.
文摘Objective: To investigate the diagnos- tic and therapeutic effect ofbronchofiberscopy in the manage- ment of severe thoracic trauma. Methods: A retrospective study was conducted on 207 consecutive patients with severe thoracic trauma enrolled in our hospital between January 2008 and June 2012. During the period, 488 bronchofiberscopies and lavages were done. The bronchofiberscope was inserted through tracheal inci- sion (282), nasal cavity (149) and oral cavity (57). Intensive SaO2 monitoring as well as blood gas analysis were per- formed pre-, intra- and postoperatively. Simultaneously oxy- gen therapy or ventilatory support was given. Sputum cul- ture was done intraoperatively. Results: Diagnosis in 207 cases was confirmed by bronchofiberscopy. The result of sputum culture was posi- tive in 78 cases. Lavage was performed on 156 cases. SaO2 significantly increased after bronchofiberscopies as well as lavages and PaO2 obviously improved 2 h after surgery (both P〈0.05). Heart rate and respiratory rate decreased. There was no bronchofiberscopy-related death. Conclusion: Bronchofiberscopy plays an important role in the diagnosis and treatment of severe thoracic trauma, which can not only timely diagnose bronchial injury and collect deep tracheal sputum for bacterial culture but also effectively remove foreign body, secretion, blood and spu- tum crust in the airway, manage obstructive atelectasis and pneumonia, and signifcantly improve respiratory fimction and treatment outcome.
基金by Natural Sciences and Engineering Research Council of Canada Discovery grants to Q.L.Dang(Project No.203198-2013-RGPIN)Lakehead University Graduate Assistantships to J.Marfo.
文摘Aims Black spruce(Picea mariana[Mill.]B.S.P.)and white spruce(Picea glauca[Moench]Voss.)are congeneric species.Both are moderately shade tolerant and widely distributed across North American boreal forests.Methods To understand light effects on their ecophysiological responses to elevated CO_(2),1-year-old seedlings were exposed to 360µmol mol−1 and 720µmol mol−1 CO_(2)at three light conditions(100%,50%and 30%of full light in the greenhouse).Foliar gas exchanges were measured in the mid-and late-growing season.Important Findings Elevated CO_(2)increased net photosynthesis(Pn)and photosynthetic water use efficiency,but it reduced stomatal conductance and transpiration.The stimulation of photosynthesis by elevated CO_(2)was greatest at 50%light and smallest at 100%.Photosynthesis,maximum carboxylation rate(Vcmax)and light-saturated rate of electron transport(Jmax)all decreased with decreasing light.Elevated CO_(2)significantly reduced Vcmax across all light treatments and both species in mid-growing season.However,the effect of elevated CO_(2)became insignificant at 30%light later in the growing season,with the response being greater in black spruce than in white spruce.Elevated CO_(2)also reduced Jmax in white spruce in both measurements while the effect became insignificant at 30%light later in the growing season.However,the effect on black spruce varied with time.Elevated CO_(2)reduced Jmax in black spruce in mid-growing season in all light treatments and the effect became insignificant at 30%light later in the growing season,while it increased Jmax later in the season at 100%and 50%light.These results suggest that both species benefited from elevated CO_(2),and that the responses varied with light supply,such that the response was primarily physiological at 100%and 50%light,while it was primarily morphological at 30%light.
