Cellulase activities of Anoplophora glabripennis (Motsch.) adults from two host plants (Populus simonii x p pyramidliscr cv. Opera Hsu. and Salix matsudana Koidz) fed on three different host tree species (Acer ne...Cellulase activities of Anoplophora glabripennis (Motsch.) adults from two host plants (Populus simonii x p pyramidliscr cv. Opera Hsu. and Salix matsudana Koidz) fed on three different host tree species (Acer negundo Linn., S. matsudana Koidz and P simonii x P pyramidliscr cv. Opera Hsu.) were investigated. Enzyme activities of endoglucanase and β-glucosidase in the intestines of the insects were measured. The results show that there are no statistically significant differences in the enzyme activities of endoglucanase between male and female insects from the two host plants fed on three host trees, neither inβ-glucosidase. No statistically significant differences in the enzyme activities of endoglucanase and β-glucosidase were found between males and females from the two plants fed on three host tree species, except that the endoglucanase activity in males from the opera poplar fed on Hankow willow is lower than that fed on ash-leaf maple and opera poplar.展开更多
The scroll in a Beijing Tibetan Hospital clinic shows the beginning of life,dividing a human fetus’s development into 38 weeks,complete with stark depictions of organs.Defi nitely not the average'Gray’s Anatomy&...The scroll in a Beijing Tibetan Hospital clinic shows the beginning of life,dividing a human fetus’s development into 38 weeks,complete with stark depictions of organs.Defi nitely not the average'Gray’s Anatomy'illustration,this is in the style of traditional Thangka painting,abstract and exaggerated.展开更多
Background:Climate change is expected to affect plant–soil feedbacks(PSFs,i.e.,the effects of a plant on the growth of another plant or community grown in the same soil via changes in soil abiotic and biotic properti...Background:Climate change is expected to affect plant–soil feedbacks(PSFs,i.e.,the effects of a plant on the growth of another plant or community grown in the same soil via changes in soil abiotic and biotic properties),influencing plant community dynamics and,through this,ecosystem functioning.However,our knowledge of the effects of climate changes on the magnitude and direction of PSFs remains limited,with considerable variability between studies.We quantified PSFs associated with common climate change factors,specifically drought and warming,and their corresponding ambient(control)conditions using a meta-analytical approach.We investigated whether drought and warming effects on PSFs were consistent across functional groups,life histories(annual versus perennial)and species origin(native versus non-native),planting(monoculture,mixed culture)and experimental(field,greenhouse/laboratory)conditions.Results:PSFs were negative(a mechanism that encourage species co-existence)under drought and neutral under corresponding ambient conditions,whereas PSFs were negative under both ambient and elevated temperatures,with no apparent difference in effect size.The response to drought was largely driven by stronger negative PSFs in grasses,indicating that grasses are more likely to show stronger negative PSFs than other functional groups under drought.Moreover,non-native species showed negative drought-induced PSFs while native species showed neutral PSFs under drought.By contrast,we found the opposite in pattern in response to warming for native and non-native species.Perennial herbs displayed stronger drought-induced negative PSFs than annual herbs.Mixed species communities displayed more negative PSFs than monocultures,independent of climate treatment.Finally,warming and drought treatment PSF effect sizes were more negative in experiments performed in the field than under controlled conditions.Conclusions:We provide evidence that drought and warming can induce context-specific shifts in PSFs,which are dependent on plant functional groups,life history traits and experimental conditions.These shifts would be expected to have implications for plant community dynamics under projected climate change scenarios.展开更多
基金supported by the National Natural Science Foundation of China (Grant No. 30571503)the Program for Changjiang Scholars and Innovative Research Team in Universities (PCSIRT0607)
文摘Cellulase activities of Anoplophora glabripennis (Motsch.) adults from two host plants (Populus simonii x p pyramidliscr cv. Opera Hsu. and Salix matsudana Koidz) fed on three different host tree species (Acer negundo Linn., S. matsudana Koidz and P simonii x P pyramidliscr cv. Opera Hsu.) were investigated. Enzyme activities of endoglucanase and β-glucosidase in the intestines of the insects were measured. The results show that there are no statistically significant differences in the enzyme activities of endoglucanase between male and female insects from the two host plants fed on three host trees, neither inβ-glucosidase. No statistically significant differences in the enzyme activities of endoglucanase and β-glucosidase were found between males and females from the two plants fed on three host tree species, except that the endoglucanase activity in males from the opera poplar fed on Hankow willow is lower than that fed on ash-leaf maple and opera poplar.
文摘The scroll in a Beijing Tibetan Hospital clinic shows the beginning of life,dividing a human fetus’s development into 38 weeks,complete with stark depictions of organs.Defi nitely not the average'Gray’s Anatomy'illustration,this is in the style of traditional Thangka painting,abstract and exaggerated.
基金supported by funding from the Australian Research Council(DP150104199,DP190101968)。
文摘Background:Climate change is expected to affect plant–soil feedbacks(PSFs,i.e.,the effects of a plant on the growth of another plant or community grown in the same soil via changes in soil abiotic and biotic properties),influencing plant community dynamics and,through this,ecosystem functioning.However,our knowledge of the effects of climate changes on the magnitude and direction of PSFs remains limited,with considerable variability between studies.We quantified PSFs associated with common climate change factors,specifically drought and warming,and their corresponding ambient(control)conditions using a meta-analytical approach.We investigated whether drought and warming effects on PSFs were consistent across functional groups,life histories(annual versus perennial)and species origin(native versus non-native),planting(monoculture,mixed culture)and experimental(field,greenhouse/laboratory)conditions.Results:PSFs were negative(a mechanism that encourage species co-existence)under drought and neutral under corresponding ambient conditions,whereas PSFs were negative under both ambient and elevated temperatures,with no apparent difference in effect size.The response to drought was largely driven by stronger negative PSFs in grasses,indicating that grasses are more likely to show stronger negative PSFs than other functional groups under drought.Moreover,non-native species showed negative drought-induced PSFs while native species showed neutral PSFs under drought.By contrast,we found the opposite in pattern in response to warming for native and non-native species.Perennial herbs displayed stronger drought-induced negative PSFs than annual herbs.Mixed species communities displayed more negative PSFs than monocultures,independent of climate treatment.Finally,warming and drought treatment PSF effect sizes were more negative in experiments performed in the field than under controlled conditions.Conclusions:We provide evidence that drought and warming can induce context-specific shifts in PSFs,which are dependent on plant functional groups,life history traits and experimental conditions.These shifts would be expected to have implications for plant community dynamics under projected climate change scenarios.
