Urban parks are essential habitats for birds in densely built environments.However,most studies focus only on horizontal features,overlooking the role of integrated vertical structures.Using bird records from the Chin...Urban parks are essential habitats for birds in densely built environments.However,most studies focus only on horizontal features,overlooking the role of integrated vertical structures.Using bird records from the China Bird Report(CBR) collected between 2020 and 2024,this study focused on major urban parks in Harbin,a cold highlatitude city in Northeast China.Using interpretable machine learning models,we assessed the impact of threedimensional(3D) park features on bird species richness and identified key variables along with their nonlinear relationships.Subsequently,we grouped bird species by ecological traits and applied ordination analysis to assess their differential abundance responses to the 3D environmental characteristics of urban parks.Results showed that:(1) urban park 3D environmental features had a certain influence on bird richness,among which disturbance from built-up land and the coverage of commercial buildings were the most important factors;(2) different bird groups responded differently to the urban park 3D environmental features.Specifically,waterbirds and generalist birds preferred mixed habitats dominated by water,wetlands,and tall vegetation,and exhibited significant edge effects caused by built-up land disturbance.In contrast,forest birds were mainly affected by greenspace configuration.Although they showed tolerance to human disturbance,this trend may increase the risk of biotic homogenization.The study used a 3D environmental framework integrating horizontal and vertical dimensions to explore how bird diversity is shaped,providing detailed recommendations for biodiversitysensitive park planning in Harbin.展开更多
The scientific monitoring and reliable telecommunications(SMART)initiative,led by a joint task force including ITU,aims to integrate electronic sensors into undersea telecommunications cables for real-time and high-se...The scientific monitoring and reliable telecommunications(SMART)initiative,led by a joint task force including ITU,aims to integrate electronic sensors into undersea telecommunications cables for real-time and high-sensitivity subsea monitoring.The current integrated sensing and communication(ISAC)solution to the SMART application still relies on wavelength band multiplexing of sensing information via Ethernet switches,leading to optical communication bandwidth waste.To achieve the dense and low-interference ISAC for SMART network applications,we demonstrate the co-transmissions of coherent optical digital subcarrier modulation(DSCM)communication signals and temperature sensing information in the SMART system.Besides the co-transmission capability,the special design of the sensing transmission format is made to enable the compatible DSP with DSCM communications,which shares the same wavelength channel.Moreover,due to the different physical locations of the in-line sensing joints to the communication transceivers in the SMART system,it is hard to align the wavelength of the communication laser and the sensing one,which cannot ensure the precise allocation of sensing information into the frequency blanks of DSCM communication signals.To deal with these two issues,the sensing information at inline joints is proposed to be modulated in the manner of optical single-sideband(SSB)modulation and frequency modulation(FM),and then the precise allocation into the frequency blanks of DSCM communication signals can be realized,along with the full compatibility to demodulate the sensed temperature using the traditional frequency offset estimation in coherent DSP.Experiments on a two-span repeatered single-mode fiber link validate the integration of 20 GBaud optical DP-QAM16 transmissions and real-time temperature sensing at a sensing joint.Advanced communications are enabled by implementing space-time coding on DSCM communication signals,with 0.2 dB�factor improvement.As for the sensing functionality,the temperature sensing resolution at 0.0625°C,which reaches the limitation of the employed electronic thermometer DS18B20,has been obtained by using the communication-compatible DSP.We believe the proposed ISAC scheme along with the corresponding DSP flowchart makes sense for monitoring the subsea via the advanced SMART cables.展开更多
With its more sustainable production mode and higher healthy food supplying,cultivated meat is gradually regarded as the promising alternative meat food in future by human beings.Most of the countries in the planet ha...With its more sustainable production mode and higher healthy food supplying,cultivated meat is gradually regarded as the promising alternative meat food in future by human beings.Most of the countries in the planet had participated in the cut-throat competition for sustainable protein searching,especially for the regions with low food self-sufficiency rate.In this paper,by reviewing the commercial market participation,product development stage,and technical research progress related to cultivated meat in detail,we demonstrated the industrialization progress of cultivated meat and explored the challenges of cultivated meat in the near future.1)Seeded cell and serum free medium were the basic raw materials,which were directly related to the food safety regulation,production cost control and productivity improvement;2)Bioreactor and regulation were the cornerstone of industrialization,which were closely related to the capacity expansion,product marketing;3)Technological improvements in taste,texture,safety,scale,cost were the foundation of realizing product iterative upgrade and market acceptance.展开更多
基金supported by Natural Science Foundation of Heilongjiang Province of China [Grant number LH2023E007]。
文摘Urban parks are essential habitats for birds in densely built environments.However,most studies focus only on horizontal features,overlooking the role of integrated vertical structures.Using bird records from the China Bird Report(CBR) collected between 2020 and 2024,this study focused on major urban parks in Harbin,a cold highlatitude city in Northeast China.Using interpretable machine learning models,we assessed the impact of threedimensional(3D) park features on bird species richness and identified key variables along with their nonlinear relationships.Subsequently,we grouped bird species by ecological traits and applied ordination analysis to assess their differential abundance responses to the 3D environmental characteristics of urban parks.Results showed that:(1) urban park 3D environmental features had a certain influence on bird richness,among which disturbance from built-up land and the coverage of commercial buildings were the most important factors;(2) different bird groups responded differently to the urban park 3D environmental features.Specifically,waterbirds and generalist birds preferred mixed habitats dominated by water,wetlands,and tall vegetation,and exhibited significant edge effects caused by built-up land disturbance.In contrast,forest birds were mainly affected by greenspace configuration.Although they showed tolerance to human disturbance,this trend may increase the risk of biotic homogenization.The study used a 3D environmental framework integrating horizontal and vertical dimensions to explore how bird diversity is shaped,providing detailed recommendations for biodiversitysensitive park planning in Harbin.
基金National Natural Science Foundation of China(62475178)Yangtze River Delta Region Integration Project(2024CSJGG2600).
文摘The scientific monitoring and reliable telecommunications(SMART)initiative,led by a joint task force including ITU,aims to integrate electronic sensors into undersea telecommunications cables for real-time and high-sensitivity subsea monitoring.The current integrated sensing and communication(ISAC)solution to the SMART application still relies on wavelength band multiplexing of sensing information via Ethernet switches,leading to optical communication bandwidth waste.To achieve the dense and low-interference ISAC for SMART network applications,we demonstrate the co-transmissions of coherent optical digital subcarrier modulation(DSCM)communication signals and temperature sensing information in the SMART system.Besides the co-transmission capability,the special design of the sensing transmission format is made to enable the compatible DSP with DSCM communications,which shares the same wavelength channel.Moreover,due to the different physical locations of the in-line sensing joints to the communication transceivers in the SMART system,it is hard to align the wavelength of the communication laser and the sensing one,which cannot ensure the precise allocation of sensing information into the frequency blanks of DSCM communication signals.To deal with these two issues,the sensing information at inline joints is proposed to be modulated in the manner of optical single-sideband(SSB)modulation and frequency modulation(FM),and then the precise allocation into the frequency blanks of DSCM communication signals can be realized,along with the full compatibility to demodulate the sensed temperature using the traditional frequency offset estimation in coherent DSP.Experiments on a two-span repeatered single-mode fiber link validate the integration of 20 GBaud optical DP-QAM16 transmissions and real-time temperature sensing at a sensing joint.Advanced communications are enabled by implementing space-time coding on DSCM communication signals,with 0.2 dB�factor improvement.As for the sensing functionality,the temperature sensing resolution at 0.0625°C,which reaches the limitation of the employed electronic thermometer DS18B20,has been obtained by using the communication-compatible DSP.We believe the proposed ISAC scheme along with the corresponding DSP flowchart makes sense for monitoring the subsea via the advanced SMART cables.
基金the National Key Research and Development Program of China(2021YFC2101400)the Strategic Research and Consulting Project of Chinese Academy of Engineering(2022-XY-22)+1 种基金the Beijing Science and Technology Program(Z221100006422011)the Beijing Postdoctoral Science Foundation(2018-ZZ-119).
文摘With its more sustainable production mode and higher healthy food supplying,cultivated meat is gradually regarded as the promising alternative meat food in future by human beings.Most of the countries in the planet had participated in the cut-throat competition for sustainable protein searching,especially for the regions with low food self-sufficiency rate.In this paper,by reviewing the commercial market participation,product development stage,and technical research progress related to cultivated meat in detail,we demonstrated the industrialization progress of cultivated meat and explored the challenges of cultivated meat in the near future.1)Seeded cell and serum free medium were the basic raw materials,which were directly related to the food safety regulation,production cost control and productivity improvement;2)Bioreactor and regulation were the cornerstone of industrialization,which were closely related to the capacity expansion,product marketing;3)Technological improvements in taste,texture,safety,scale,cost were the foundation of realizing product iterative upgrade and market acceptance.
