Aims: Plant roots show various functional strategies in soil phosphorus(P) acquisition. Under limited soil phosphatase activity, P deficiency is the main concern, and roots either invest carbon(C) to produce higher le...Aims: Plant roots show various functional strategies in soil phosphorus(P) acquisition. Under limited soil phosphatase activity, P deficiency is the main concern, and roots either invest carbon(C) to produce higher levels of phosphatase or establish more symbioses with mycorrhizal fungi. However, these strategies and their interactions are not clear. Furthermore, few studies have investigated trade-offs of functional traits in woody species associated with different types of mycorrhizal partners.Methods: Here we examined the abilities to release acid phosphatase(AP) and the colonization ratio by arbuscular and ectomycorrhizal fungi for fine roots of 15 woody species growing in a tropical common garden in Xishuangbanna, China. We also measured acid phosphatase activities of bulk soils under the canopy of target trees.Results: Soil and root AP activities exhibited a positive correlation, indicating that roots actively produced AP to acquire P even bulk soil AP was increasing. We found a significantly negative correlation(P=0.02) between mycorrhizal colonization ratio and root-released AP activity across target species, reflecting a trade-off between these two P acquisition strategies.Conclusions: Our findings suggest a trade-off of resource allocation between these two strategies at both species and individual levels, and provide information on the overall mechanism of P acquisition by fine roots that they either ‘do it by themselves’ or ‘rely on mycorrhizal partners’. These two strategies might be integrated into the collaboration gradient of the root economics space.展开更多
Objective: To study the effects of hyperbaric air exposure on the functions of peritoneal macrophages of mice. Methods: Forty-eight mice were equally randomized to 6 groups: (1) normal air group (NA); (2) hyperbaric a...Objective: To study the effects of hyperbaric air exposure on the functions of peritoneal macrophages of mice. Methods: Forty-eight mice were equally randomized to 6 groups: (1) normal air group (NA); (2) hyperbaric air group 1 (HA1); (3) hyperbaric air group 2 (HA2); (4) hyperbaric air group 3 (HA3); (5) hyperbaric oxygen group (HO);(6) hyperbaric nitrogen group (HN). Every group was exposed to corresponding pressure for 60 min, twice a day for 3 d. Peritoneal macrophages were obtained at the corresponding time to observe the changes of phagocytosis, acid phos-phatase, antigen presentation function and the produce of NO and TNF-α. Results: Compared with those in NA group, the activity of phagocytosis, acid phosphatase, antigen presentation function and the produce of NO and TNF-a were markedly inhibited in hyperbaric oxygen group and hyperbaric air group 1 ( P < 0.05, P < 0.01) and they changed little in HN group. These changes could disappear in 3 - 5 d. Conclusion: The functions of mice peritoneal macrophages were obviously inhibited in simulated air diving environment and hyperoxia may play an important role in it.展开更多
基金supported by funding from the National Natural Science Foundation of China(Nos.32001218,42141006 and 31988102).
文摘Aims: Plant roots show various functional strategies in soil phosphorus(P) acquisition. Under limited soil phosphatase activity, P deficiency is the main concern, and roots either invest carbon(C) to produce higher levels of phosphatase or establish more symbioses with mycorrhizal fungi. However, these strategies and their interactions are not clear. Furthermore, few studies have investigated trade-offs of functional traits in woody species associated with different types of mycorrhizal partners.Methods: Here we examined the abilities to release acid phosphatase(AP) and the colonization ratio by arbuscular and ectomycorrhizal fungi for fine roots of 15 woody species growing in a tropical common garden in Xishuangbanna, China. We also measured acid phosphatase activities of bulk soils under the canopy of target trees.Results: Soil and root AP activities exhibited a positive correlation, indicating that roots actively produced AP to acquire P even bulk soil AP was increasing. We found a significantly negative correlation(P=0.02) between mycorrhizal colonization ratio and root-released AP activity across target species, reflecting a trade-off between these two P acquisition strategies.Conclusions: Our findings suggest a trade-off of resource allocation between these two strategies at both species and individual levels, and provide information on the overall mechanism of P acquisition by fine roots that they either ‘do it by themselves’ or ‘rely on mycorrhizal partners’. These two strategies might be integrated into the collaboration gradient of the root economics space.
文摘Objective: To study the effects of hyperbaric air exposure on the functions of peritoneal macrophages of mice. Methods: Forty-eight mice were equally randomized to 6 groups: (1) normal air group (NA); (2) hyperbaric air group 1 (HA1); (3) hyperbaric air group 2 (HA2); (4) hyperbaric air group 3 (HA3); (5) hyperbaric oxygen group (HO);(6) hyperbaric nitrogen group (HN). Every group was exposed to corresponding pressure for 60 min, twice a day for 3 d. Peritoneal macrophages were obtained at the corresponding time to observe the changes of phagocytosis, acid phos-phatase, antigen presentation function and the produce of NO and TNF-α. Results: Compared with those in NA group, the activity of phagocytosis, acid phosphatase, antigen presentation function and the produce of NO and TNF-a were markedly inhibited in hyperbaric oxygen group and hyperbaric air group 1 ( P < 0.05, P < 0.01) and they changed little in HN group. These changes could disappear in 3 - 5 d. Conclusion: The functions of mice peritoneal macrophages were obviously inhibited in simulated air diving environment and hyperoxia may play an important role in it.
