Dear Editor,Since 2024,the clade 2.3.4.4b highly pathogenic avian influenza(HPAI)H5N1 viruses have been identified in dairy cattle in the United States,raising global concerns about public health(Neumann and Kawaoka,2...Dear Editor,Since 2024,the clade 2.3.4.4b highly pathogenic avian influenza(HPAI)H5N1 viruses have been identified in dairy cattle in the United States,raising global concerns about public health(Neumann and Kawaoka,2024).As of December 18,2024,the U.S.Centers for Disease Control and Prevention(CDC)has reported over 61 confirmed cases of H5N1 infection in humans,predominantly associated with exposure to infected poultry or dairy cattle(U.S.Centers for Disease Control and Prevention,2024).Notably,the circulating 2.3.4.4b H5N1 clade has demonstrated continuous evolution in both wild and domestic birds globally,with expanding mammalian host tropism that now includes swine,cats,red foxes,harbor seals,and skunks(Peacock et al.,2024).These viruses have not only incurred substantial economic impacts but also posed dual threats to human health and ecological stability particularly during co-infections with other viruses(Abolnik,2024;Wang and Wang,2023).展开更多
认知诗学图形-背景理论可以阐释英裔爱尔兰诗人叶芝抒情诗The Wild Swans at Coole(《柯尔庄园的野天鹅》)。以诗歌创作的社会环境、诗人的个人经历及创作风格为参照,诗中的意象、句法语义、韵律及语篇衔接等所体现的图形与背景关系得...认知诗学图形-背景理论可以阐释英裔爱尔兰诗人叶芝抒情诗The Wild Swans at Coole(《柯尔庄园的野天鹅》)。以诗歌创作的社会环境、诗人的个人经历及创作风格为参照,诗中的意象、句法语义、韵律及语篇衔接等所体现的图形与背景关系得以清晰化,诗歌主题意象的象征意义得以深入理解,从而使观者获得情感体验,达到诗歌的审美效果。得出结论:诗歌的深入理解应建立在诗歌内容与相关背景信息相结合的基础上。展开更多
There are five Species of swan in the world. Three of them were recorded in China. They are whooper swan(Cygnus cygnus ). whistling swan (Cygnus columbianus ) and mute swan (Cygnus olor). Among them. whooper swan is t...There are five Species of swan in the world. Three of them were recorded in China. They are whooper swan(Cygnus cygnus ). whistling swan (Cygnus columbianus ) and mute swan (Cygnus olor). Among them. whooper swan is themost famous in China. Whooper swan is a resident bird in China. They breed in Xinjiang Ugyur Autonomous Region. InnerMongol Autonomous Region, Hcilongiiang Province. etc.. and winter in Qinghai. Shandong. Henan Provincc. etc.. and thelower reaches of the Changjiang River. The total number in China is about 5.000 in breeding grounds and 15.000 in winter-ing grounds. Higher number Were found in 1960s. Because of the changes in environment and hunting, of picking up eggsand of catching nestlings. their population is being reduced rapidly. They are in danger now. In order to protect the whooperswans. some protection measuresmust be taken. such as strcngthening public education and scientitic research- establishinga base of raising and breeding; deieloping intcrnational cooperation. strengthening the construction of natural reserves in thebreeding and wintering grounds. Up to the cnd of 1993. 34 natural reserves have been established in China.展开更多
Long-distance migratory birds travel more rapidly in spring than in autumn,as they face temporal breeding constraints.However,several species travel slower in spring owing to environmental influences,such as food avai...Long-distance migratory birds travel more rapidly in spring than in autumn,as they face temporal breeding constraints.However,several species travel slower in spring owing to environmental influences,such as food availability and wind conditions.GPS trackers were attached to 17 Whooper Swans(Cygnus cygnus) inhabiting northeastern Mongolia,to determine their migration routes and stopover sites in spring and autumn.Differences between spring and autumn migrations,migration-influencing parameters,and the effect of spring stopover site temperatures were analyzed.Six swans completed perfect tours between their wintering and breeding sites,and these data were used for analysis.Spring migration lasted 57 days,with 49.2 days spent at 3.7 stopover sites.Autumn migration lasted 21.5 days,with 17.5 days spent at 1.0 stopover sites.Thus,the swans traveled more rapidly in autumn than in spring.Migration distance,number of stopovers,migration speed,and straightness were important migration determinants in both spring and autumn.Migration distance,stopover duration,number of stopovers,daily travel speed,travel duration,and migration speed differed significantly between spring and autumn.During spring migration,the temperature at the current stopover sites and that at the future stopover sites displayed significant variations(t=1585.8,df=631.6,p <0.001).These findings are critical for the conservation and management of Whooper Swans and their key habitats in East Asian regions,and the data are anticipated to make a particularly significant contribution toward developing detailed management plans for the conservation of their key habitats.展开更多
Background:Our understanding of any impacts of swans on other waterbirds(including other swans),and potential effects on waterbird community structure,remain limited by a paucity of fundamental behavioural and ecologi...Background:Our understanding of any impacts of swans on other waterbirds(including other swans),and potential effects on waterbird community structure,remain limited by a paucity of fundamental behavioural and ecological data,including which species swans interact aggressively with and how frequently such interactions occur.Methods:Behavioural observations of aggression by swans and other waterbirds in winters 2018/2019 and 2019/2020,were carried out via live-streaming webcams at two wintering sites in the UK.All occurrence sampling was used to identify all aggressive interactions between conspecific or heterospecifics individuals,whilst focal observations were used to record the total time spent by swans on aggressive interactions with other swans.Binomial tests were then used to assess whether the proportion of intraspecific aggressive interactions of each species differed from 0.5(which would indicate equal numbers of intraspecific and interspecific interactions).Zero-inflated generalized linear mixed effects models(ZIGLMMs)were used to assess between-individual variation in the total time spent by swans on aggressive interactions with other swans.Results:All three swan species were most frequently aggressive towards,and received most aggression from,their conspecifics.Our 10-min focal observations showed that Whooper(Cygnus cygnus)and Bewick’s Swans(C.columbianus bewickii)spent 13.8±4.7 s(means±95%CI)and 1.4±0.3 s,respectively,on aggression with other swans.These durations were equivalent to 2.3%and 0.2%of the Whooper and Bewick’s Swan time-activity budgets,respectively.Model selection indicated that the time spent in aggressive interactions with other swans was best-explained by the number of other swans present for Whooper Swans,and an interactive effect of time of day and winter of observation for Bewick’s Swans.However,the relationship between swan numbers and Whooper Swan aggression times was not strong(R2=19.3%).Conclusions:Whilst swans do exhibit some aggression towards smaller waterbirds,the majority of aggression by swans is directed towards other swans.Aggression focused on conspecifics likely reflects greater overlap in resource use,and hence higher potential for competition,between individuals of the same species.Our study provides an example of how questions relating to avian behaviour can be addressed using methods of remote data collection such as live-streaming webcams.展开更多
On February 8,2025,a remote area in the Caribbean Sea was rocked by a large M_(W)7.6(USGS,2025) earthquake,centered 209 km SSW of Georgetown,the capital of the Cayman Islands,and the largest city(population~41 000) of...On February 8,2025,a remote area in the Caribbean Sea was rocked by a large M_(W)7.6(USGS,2025) earthquake,centered 209 km SSW of Georgetown,the capital of the Cayman Islands,and the largest city(population~41 000) of the British Overseas Territories(Figure 1).The earthquake was significant due to its large magnitude,potential regional impact,and the possibility of generating a tsunami.展开更多
文摘Dear Editor,Since 2024,the clade 2.3.4.4b highly pathogenic avian influenza(HPAI)H5N1 viruses have been identified in dairy cattle in the United States,raising global concerns about public health(Neumann and Kawaoka,2024).As of December 18,2024,the U.S.Centers for Disease Control and Prevention(CDC)has reported over 61 confirmed cases of H5N1 infection in humans,predominantly associated with exposure to infected poultry or dairy cattle(U.S.Centers for Disease Control and Prevention,2024).Notably,the circulating 2.3.4.4b H5N1 clade has demonstrated continuous evolution in both wild and domestic birds globally,with expanding mammalian host tropism that now includes swine,cats,red foxes,harbor seals,and skunks(Peacock et al.,2024).These viruses have not only incurred substantial economic impacts but also posed dual threats to human health and ecological stability particularly during co-infections with other viruses(Abolnik,2024;Wang and Wang,2023).
文摘认知诗学图形-背景理论可以阐释英裔爱尔兰诗人叶芝抒情诗The Wild Swans at Coole(《柯尔庄园的野天鹅》)。以诗歌创作的社会环境、诗人的个人经历及创作风格为参照,诗中的意象、句法语义、韵律及语篇衔接等所体现的图形与背景关系得以清晰化,诗歌主题意象的象征意义得以深入理解,从而使观者获得情感体验,达到诗歌的审美效果。得出结论:诗歌的深入理解应建立在诗歌内容与相关背景信息相结合的基础上。
文摘There are five Species of swan in the world. Three of them were recorded in China. They are whooper swan(Cygnus cygnus ). whistling swan (Cygnus columbianus ) and mute swan (Cygnus olor). Among them. whooper swan is themost famous in China. Whooper swan is a resident bird in China. They breed in Xinjiang Ugyur Autonomous Region. InnerMongol Autonomous Region, Hcilongiiang Province. etc.. and winter in Qinghai. Shandong. Henan Provincc. etc.. and thelower reaches of the Changjiang River. The total number in China is about 5.000 in breeding grounds and 15.000 in winter-ing grounds. Higher number Were found in 1960s. Because of the changes in environment and hunting, of picking up eggsand of catching nestlings. their population is being reduced rapidly. They are in danger now. In order to protect the whooperswans. some protection measuresmust be taken. such as strcngthening public education and scientitic research- establishinga base of raising and breeding; deieloping intcrnational cooperation. strengthening the construction of natural reserves in thebreeding and wintering grounds. Up to the cnd of 1993. 34 natural reserves have been established in China.
基金the National Institute of Bio-logical Resources,funded by the Ministry of Environment,Republic of Korea(grant numbers NIBR202216101 and NIBR202223101).
文摘Long-distance migratory birds travel more rapidly in spring than in autumn,as they face temporal breeding constraints.However,several species travel slower in spring owing to environmental influences,such as food availability and wind conditions.GPS trackers were attached to 17 Whooper Swans(Cygnus cygnus) inhabiting northeastern Mongolia,to determine their migration routes and stopover sites in spring and autumn.Differences between spring and autumn migrations,migration-influencing parameters,and the effect of spring stopover site temperatures were analyzed.Six swans completed perfect tours between their wintering and breeding sites,and these data were used for analysis.Spring migration lasted 57 days,with 49.2 days spent at 3.7 stopover sites.Autumn migration lasted 21.5 days,with 17.5 days spent at 1.0 stopover sites.Thus,the swans traveled more rapidly in autumn than in spring.Migration distance,number of stopovers,migration speed,and straightness were important migration determinants in both spring and autumn.Migration distance,stopover duration,number of stopovers,daily travel speed,travel duration,and migration speed differed significantly between spring and autumn.During spring migration,the temperature at the current stopover sites and that at the future stopover sites displayed significant variations(t=1585.8,df=631.6,p <0.001).These findings are critical for the conservation and management of Whooper Swans and their key habitats in East Asian regions,and the data are anticipated to make a particularly significant contribution toward developing detailed management plans for the conservation of their key habitats.
基金This work was supported by the Wildfowl&Wetlands Trust and the University of Exeter。
文摘Background:Our understanding of any impacts of swans on other waterbirds(including other swans),and potential effects on waterbird community structure,remain limited by a paucity of fundamental behavioural and ecological data,including which species swans interact aggressively with and how frequently such interactions occur.Methods:Behavioural observations of aggression by swans and other waterbirds in winters 2018/2019 and 2019/2020,were carried out via live-streaming webcams at two wintering sites in the UK.All occurrence sampling was used to identify all aggressive interactions between conspecific or heterospecifics individuals,whilst focal observations were used to record the total time spent by swans on aggressive interactions with other swans.Binomial tests were then used to assess whether the proportion of intraspecific aggressive interactions of each species differed from 0.5(which would indicate equal numbers of intraspecific and interspecific interactions).Zero-inflated generalized linear mixed effects models(ZIGLMMs)were used to assess between-individual variation in the total time spent by swans on aggressive interactions with other swans.Results:All three swan species were most frequently aggressive towards,and received most aggression from,their conspecifics.Our 10-min focal observations showed that Whooper(Cygnus cygnus)and Bewick’s Swans(C.columbianus bewickii)spent 13.8±4.7 s(means±95%CI)and 1.4±0.3 s,respectively,on aggression with other swans.These durations were equivalent to 2.3%and 0.2%of the Whooper and Bewick’s Swan time-activity budgets,respectively.Model selection indicated that the time spent in aggressive interactions with other swans was best-explained by the number of other swans present for Whooper Swans,and an interactive effect of time of day and winter of observation for Bewick’s Swans.However,the relationship between swan numbers and Whooper Swan aggression times was not strong(R2=19.3%).Conclusions:Whilst swans do exhibit some aggression towards smaller waterbirds,the majority of aggression by swans is directed towards other swans.Aggression focused on conspecifics likely reflects greater overlap in resource use,and hence higher potential for competition,between individuals of the same species.Our study provides an example of how questions relating to avian behaviour can be addressed using methods of remote data collection such as live-streaming webcams.
文摘On February 8,2025,a remote area in the Caribbean Sea was rocked by a large M_(W)7.6(USGS,2025) earthquake,centered 209 km SSW of Georgetown,the capital of the Cayman Islands,and the largest city(population~41 000) of the British Overseas Territories(Figure 1).The earthquake was significant due to its large magnitude,potential regional impact,and the possibility of generating a tsunami.
