In the past fifty years,scholars have examined fields of England’s politics in the sixteenth and seventeenth centuries;however,the politics of mobility has not been extensively studied.This article addresses Prince H...In the past fifty years,scholars have examined fields of England’s politics in the sixteenth and seventeenth centuries;however,the politics of mobility has not been extensively studied.This article addresses Prince Hal and King Henry Ⅴ’s wildness within mobility as an important role to the advancement of metaphorical wildness.King Henry Ⅴ’s“wildness”is an element that is often discussed in Shakespeare’s Henry Ⅳ and Henry Ⅴ.Locating in Prince Hal’s wandering to uncertainty,unsettledness and changeability a potential to unveil the disguised aspects of the assumed politics,Shakespeare focuses on the interlocking aspect of wildness and mobility.He calls for exploring a recognition of ideal character and tactical figure into a transitional strategy of it.In reorganising civil culture,Shakespeare sees the possibility of re-configuring the approach from aimless roaming to communal mobility.It is the approach of these mobilities through ways of wildnes that permits us to explore between wildness as a strategy and as a metaphor,and to understand in the notion of early modern mobility that is as tactical in ambition as it is consequential in such contexts of Shakespeare.展开更多
Approximately half of all cancers have p53 inactivating mutations,in addition to which most malignancies inactivate the p53 pathway by increasing p53 inhibitors,decreasing p53 activators,or inactivating p53 downstream...Approximately half of all cancers have p53 inactivating mutations,in addition to which most malignancies inactivate the p53 pathway by increasing p53 inhibitors,decreasing p53 activators,or inactivating p53 downstream targets.A growing number of researches have demonstrated that p53 can influence tumor progression through the tumor microenvironment(TME).TME is involved in the process of tumor development and metastasis and affects the clinical prognosis of patients.p53 participates in host immunity and engages in the immune landscape of the TME,but the specific mechanisms remain to be investigated.This review briefly explores the interactions between different states of p53 and TME components and their mechanisms,as well as their effects on tumor progression.To understand the progress of drug development and clinical studies related to p53 and tumor microenvironment.展开更多
Wild peanut(Arachis)species are promising sources of disease resistance for improving peanut cultivars.The objective of this study was to assess cross-compatibility among cultivated and wild peanuts in crosses between...Wild peanut(Arachis)species are promising sources of disease resistance for improving peanut cultivars.The objective of this study was to assess cross-compatibility among cultivated and wild peanuts in crosses between eight peanut cultivars and 27 wild species carrying the A,B,E,Ex,F,K,P,and H genomes.Embryo culture and chromosome doubling led to polyploids representing hybrids between cultivated peanut and A.stenosperma,A.macedoi,A.duranensis,A.villosa,and A.diogoi.The first two showed greater resistance to bacterial wilt than their cultivated parents.DNA markers were developed for verifying the hybrids and for identifying translocation or introgression lines with alien chromosome fragments.展开更多
Background:Momordica charantia L.var.abbreviata Ser.(MCA),locally known as“ampalayang ligaw”,is a wild variety of Momordica charantia L.,and a valuable medicinal plant possessing hypoglycemic activity.However,it onl...Background:Momordica charantia L.var.abbreviata Ser.(MCA),locally known as“ampalayang ligaw”,is a wild variety of Momordica charantia L.,and a valuable medicinal plant possessing hypoglycemic activity.However,it only grows in open fields and is not widely cultivated due to slow growth and low productivity.Methods:To enhance its overall plant health,a consortium of three Trichoderma spp.was inoculated into MCA.The effects on growth,floral biology,productivity,and total triterpenes were assessed to determine the efficacy of Trichoderma spp.as a sustainable and environment-friendly plant growth promoter.A consortium of three Trichoderma spp.(T.ghanense,T.pseudokoningii,and T.harzianum)mixed in equal proportions were applied as seed coat and soil drench according to previous recommendations.Results:Results show that Trichoderma-treated MCA exhibited significantly(P<0.05)greater leaf area and growth rate compared to the untreated control.Trichoderma likewise affected the floral biology of MCA with bigger flower sizes(P<0.01),earlier male flower emergence,and increased number of female flowers(P<0.05).Regarding productivity,Trichoderma significantly increased the fruit set,dry weight and length of fruits(P<0.01),number of fruits per plant,and seed germination percentage(P<0.05).An increase in shoot length was significantly correlated to a greater number of fruits hence with higher productivity.Trichoderma also significantly enhanced(22%increase)the total triterpenes in MCA leaves,probably owing to hormonal modulation of gene expression changes as previous studies have shown.The increased triterpene content suggests an enhanced pharmacological potential of Trichoderma-treated MCA for diabetes management,warranting further bioactivity studies.Conclusion:Therefore,these results reveal the efficacy of Trichoderma on MCA productivity enhancement,demonstrating the potential of Trichoderma-treated MCA to become more amenable to commercial cultivation.展开更多
Taxus cuspidata,a rare species of the Taxus genus,and its wild resources are under severe threat.The development of cultivated species has become an important strategy to replace wild species.The objective of this wor...Taxus cuspidata,a rare species of the Taxus genus,and its wild resources are under severe threat.The development of cultivated species has become an important strategy to replace wild species.The objective of this work was to elucidate the differences in secondary metabolite accumulation,particularly in the paclitaxel biosynthesis pathway,between wild and cultivated species.This study employed liquid chromatography-tandem mass spectrometry(LC-MS/MS)and RNA sequencing(RNA-Seq)technologies to conduct integrated metabolomic and transcriptomic analyses of wild and cultivated species of T.cuspidata.The results showed that the content of paclitaxel in cultivated species was significantly higher than in wild species,reaching 1.67 times that of the latter(p 0.01).Additionally,the<content of key paclitaxel precursors,GGPP and 10-deacetylbaccatin III,in cultivated species was 1.94 times(p 0.05)<and 1.71 times(p 0.01)higher than in wild species,respectively.Transcriptomic analysis identified 2606 differentially<expressed genes(DEGs),among which key enzyme genes related to paclitaxel biosynthesis(such as DXS,DXR,GGPS,etc.)were generally upregulated in cultivated species.Multiple key enzyme genes in both the 2-C-methyl-D-erythritol 4-phosphate pathway(MEP)and paclitaxel biosynthesis pathways were significantly upregulated in cultivated species.Conversely,genes and metabolites related to sugar metabolism were found to be higher in content in wild species.These findings reveal the significant advantage of cultivated species in paclitaxel production capacity,providing new insights into the metabolic regulation mechanisms during yew domestication.This has important implications for optimizing paclitaxel biosynthesis and guiding future improvements in T.cuspidata cultivars.展开更多
A milu deer crosses a river in Dafeng,Jiangsu Province,on 2 July.The city is home to the world’s largest milu deer nature reserve,covering 78,000 hectares and hosting the largest wild population of the species globally.
Ephemeroviruses(EVs)are arthropod-borne rhabdoviruses and were isolated exclusively from cattle and haematophagous arthropods until two new ephemeroviruses were first identified from domestic pigs most recently.Here w...Ephemeroviruses(EVs)are arthropod-borne rhabdoviruses and were isolated exclusively from cattle and haematophagous arthropods until two new ephemeroviruses were first identified from domestic pigs most recently.Here we report the identification of newer EVs in wild boar by meta-transcriptomic(MTT)sequencing.Further screening by specific RT-nPCR of tissue samples of 459 free-ranging wild boars collected between 2018 and 2023 from 26 provinces across China confirmed five positive wild boars in four provinces.Interestingly,two ticks especially collected from two positive wild boars were also EV positive.Finally,four complete genome sequences of wild boar ephemeroviruses(WbEVs)were obtained with two strains belonging to a new EV species,and the rest two falling into porcine ephemerovirus 2(PoEV2)species identified from domestic pigs.Our study has further extended EV host range and demonstrated natural circulations of divergent EVs in wild boars,in which ticks may play roles.Biological implications of EV infection in wild boars should be interesting topics for future investigations.展开更多
In rice fields,rice plants usually grow alongside wild weeds and are attacked by various invertebrate species.Viruses are abundant in plants and invertebrates,playing crucial ecological roles in controlling microbial ...In rice fields,rice plants usually grow alongside wild weeds and are attacked by various invertebrate species.Viruses are abundant in plants and invertebrates,playing crucial ecological roles in controlling microbial abundance and maintaining community structures.To date,only 16 rice viruses have been documented in rice-growing regions.These viruses pose serious threats to rice production and have traditionally been identified only from rice plants and insect vectors by isolation techniques.Advances in next-generation sequencing(NGS)have made it feasible to discover viruses on a global scale.Recently,numerous viruses have been identified in plants and invertebrates using NGS technologies.In this review,we discuss viral studies in rice plants,invertebrate species,and weeds in rice fields.Many novel viruses have been discovered in rice ecosystems through NGS technologies,with some also detected using metatranscriptomic and small RNA sequencing.These analyses greatly expand our understanding of viruses in rice fields and provide valuable insights for developing efficient strategies to manage insect pests and virus-mediated rice diseases.展开更多
Testing the association of two high-dimensional random vectors is of fundamental importance in the statistical theory and applications.In this paper,we propose a new test statistic based on the Frobenius norm and subt...Testing the association of two high-dimensional random vectors is of fundamental importance in the statistical theory and applications.In this paper,we propose a new test statistic based on the Frobenius norm and subtracting bias technique,which is generally applicable to high-dimensional data without restricting the distributional Assumptions.The limiting null distribution of the proposed test is shown to be a random variable combining a finite chi-squared-type mixture with a normal approximation.Our proposed test method can also be a normal approximation or a finite chi-squared-type mixtures under additional regularity conditions.To make the test statistic applicable,we introduce a wild bootstrap method and demonstrate its validity.The finite-sample performance of the proposed test via Monte Carlo simulations reveals that it performs better at controlling the empirical size than some existing tests,even when the normal approximation is invalid.Real data analysis is devoted to illustrating the proposed test.展开更多
Illegal hunting and trafficking of wildlife and their derivatives extort unprecedented population decline of relatively many species pushing them towards extinction.Notwithstanding contemporary counteracting intervent...Illegal hunting and trafficking of wildlife and their derivatives extort unprecedented population decline of relatively many species pushing them towards extinction.Notwithstanding contemporary counteracting interventions at international,regional,national and local levels,wildlife farming is advocated as an alternative approach to minimize pressure on wild populations.For wildlife farming to be an effective conservation tool,the integration of wildlife forensics is inevitable to allow distinction between captive-bred and wild-caught species.To this end,we analyzed methylation rates of skeletal muscle samples(pectoralis major,triceps brachii,gastrocnemius,biceps femoris,and neck muscles)from 60 captive-bred and 30 wild-caught Common Pheasant.A total of 13,507 differentially methylated regions were identified between five wild-caught and five captive-bred individuals through whole-genome methylation sequencing(WGBS).Based on the selected five methylation sites,LOC116231076,LOC116242223,ATAD2B,EGFL6,and HS2ST,quantitative detection technique was developed using methylation-sensitive high-resolution melting curve(MS-HRM)to measure methylation rates.The results showed significant differences in methylation rates at all differential sites between wild-caught and captive-bred individuals(|t|=0.67–33.10,P=0.000–0.042).The discrimination accuracy rate of each locus was highest in the gastrocnemius muscle and lowest in the neck muscle.The discrimination accuracy rate on LOC116231076,LOC116242223,ATAD2B,EGFL6,and HS2ST methylation sites for gastrocnemius muscle was 64.98%,100.00%,68.54%,63.79%,and 63.70%,respectively;and for neck muscle it was 67.42%,68.06%,83.61%,65.04%,and68.85%,respectively.The united discrimination accuracy rate of the five loci were 100.00%for gastrocnemius muscle,99.78%for biceps femoris muscle,97.52%for pectoralis major muscle,93.96%for triceps brachii muscle,and 91.63%for neck muscle,respectively.The panel also revealed excellent repeatability,reproducibility,sensitivity and universality to mammals and avian species.This study establishes an effective,accurate and low-cost identification technology for the identification of wild and farmed Common Pheasant,and also provides a reference for the development of identification methods for other species.展开更多
Accurate evaluation of disease levels in wild rice germplasm and identification of disease resistance are critical for developing rice varieties resistant to blast disease.However,existing evaluation methods face limi...Accurate evaluation of disease levels in wild rice germplasm and identification of disease resistance are critical for developing rice varieties resistant to blast disease.However,existing evaluation methods face limitations that hinder progress in breeding.To address these challenges,we proposed an AI-powered method for evaluating blast disease levels and identifying resistance in wild rice.A lightweight segmentation model for diseased leaves and lesions was developed,incorporating an improved federated learning approach to enhance robustness and adaptability.Based on the segmentation results and resistance identification technical specifications,wild rice materials were evaluated into 10 disease levels(L0 to L9),further enabling disease-resistance identification through multiple replicates of the same materials.The method was successfully implemented on augmented reality glasses for real-time,first-person evaluation.Additionally,high-speed scanners and edge computing devices were integrated to enable continuous,precise,and dynamic evaluation.Experimental results demonstrate the outstanding performance of the proposed method,achieving effective segmentation of diseased leaves and lesions with only 0.22 M parameters and 5.3 G floating-point operations per second(FLOPs),with a mean average precision(mAP@0.5)of 96.3%.The accuracy of disease level evaluation and disease-resistance identification reached 99.7%,with a practical test accuracy of 99.0%,successfully identifying three highly resistant wild rice materials.This method provides strong technical support for efficiently identifying wild rice materials resistant to blast disease and advancing resistance breeding efforts.展开更多
To solve the problems of redundant feature information,the insignificant difference in feature representation,and low recognition accuracy of the fine-grained image,based on the ResNeXt50 model,an MSFResNet network mo...To solve the problems of redundant feature information,the insignificant difference in feature representation,and low recognition accuracy of the fine-grained image,based on the ResNeXt50 model,an MSFResNet network model is proposed by fusing multi-scale feature information.Firstly,a multi-scale feature extraction module is designed to obtain multi-scale information on feature images by using different scales of convolution kernels.Meanwhile,the channel attention mechanism is used to increase the global information acquisition of the network.Secondly,the feature images processed by the multi-scale feature extraction module are fused with the deep feature images through short links to guide the full learning of the network,thus reducing the loss of texture details of the deep network feature images,and improving network generalization ability and recognition accuracy.Finally,the validity of the MSFResNet model is verified using public datasets and applied to wild mushroom identification.Experimental results show that compared with ResNeXt50 network model,the accuracy of the MSFResNet model is improved by 6.01%on the FGVC-Aircraft common dataset.It achieves 99.13%classification accuracy on the wild mushroom dataset,which is 0.47%higher than ResNeXt50.Furthermore,the experimental results of the thermal map show that the MSFResNet model significantly reduces the interference of background information,making the network focus on the location of the main body of wild mushroom,which can effectively improve the accuracy of wild mushroom identification.展开更多
On January 23,we arrived in Shuanghu County,Nagqu City,Xizang.With an average altitude of 5,000 meters,this is the heart of Changtang no man's land.Along the journey,Tibetan wild donkeys and Tibetan antelopes were...On January 23,we arrived in Shuanghu County,Nagqu City,Xizang.With an average altitude of 5,000 meters,this is the heart of Changtang no man's land.Along the journey,Tibetan wild donkeys and Tibetan antelopes were often seen on both sides of the highway instead of traces of human presence,and sand and dust kept hitting our van.As the night fell,the highest county seat in the world finally came into view.展开更多
A substantial body of research has been conducted with the objective of enhancing the understanding of Non-Timber Forest Products (NTFP) in Central Africa. A significant proportion of the studies focus on medicinal pl...A substantial body of research has been conducted with the objective of enhancing the understanding of Non-Timber Forest Products (NTFP) in Central Africa. A significant proportion of the studies focus on medicinal plants, in contrast to those that examine food products. Nevertheless, studies on edible wild mushrooms as NTFPs and cultivated mushrooms, on their economic potential and value chains in the Great Lakes Region, remain scarce and largely absent for some NTFPs. In light of the aforementioned considerations, the present study aims to examine the economic potential and value chain of the production sector of wild edible mushrooms (WEM) and cultivated mushrooms (CM) within the Virunga National Park (PNVi) and its surrounding areas in North Kivu, Democratic Republic of the Congo (DRC). To this end, a sample of 432 respondents was selected, distributed equitably among the actors of the Goma-Kitshanga-Mweso value chain, the Goma-Rutshuru chain, the Beni-Mutwanga chain, and the Beni-Mangina chain. A digital questionnaire consisting of open and closed questions was administered, and observations were carried out concurrently. The quantities of mushrooms sold were weighed and photographed. The results demonstrated that, when the eight-month fruiting period of wild and cultivated mushrooms was considered as a single year for all actors within the value chain, a picker could sell 6.1 kg at $2 and earn $12. A seller could sell 16 kg at $4 and earn $64, while a grower could sell 502 kg at $3 and earn $1506. Consequently, the CM grower generates a significantly higher profit than other participants in the value chain, despite the expenses he incurs. Ultimately, the domestication of WEM, highly prized by the local population of the Virunga National Park, has the potential to enhance their household incomes, as evidenced by the findings of this study.展开更多
In natural ecosystems,the timely abscission of seeds in wild plants is a crucial adaptive trait that contributes to reproductive success,population renewal,and colony expansion(Thurber et al.2010).In contrast,the tend...In natural ecosystems,the timely abscission of seeds in wild plants is a crucial adaptive trait that contributes to reproductive success,population renewal,and colony expansion(Thurber et al.2010).In contrast,the tendency for high seed shattering in domesticated crops,such as rice,not only reduces paddy yield but also complicates mechanized harvesting.展开更多
Modern crops were derived from wild ancestors between 8000 and 12,000 years ago in a process called domestication,when humans selected plant types that gave better yield.For cereal plants,they carry so-called “domest...Modern crops were derived from wild ancestors between 8000 and 12,000 years ago in a process called domestication,when humans selected plant types that gave better yield.For cereal plants,they carry so-called “domestication syndromes”,such as non-shattering spikes,free threshing grains,shorter seed dormancy,and larger grain size[1].But these early crop breeders selected only a small number of domesticated plants to satisfy their limited need,leading to a phenomenon called “domestication bottleneck”resulting in restricted genetic diversity among crop cultivars.Untapped crop wild relatives(CWRs)remain a source of traits to be bred into new cultivars with resilience to challenges facing modern agriculture.展开更多
Enhancing the spatio-temporal connectivity of dynamic landscapes is crucial for species to adapt to climate change.However,the spatio-temporal connectivity network approach considering climate change and species movem...Enhancing the spatio-temporal connectivity of dynamic landscapes is crucial for species to adapt to climate change.However,the spatio-temporal connectivity network approach considering climate change and species movement is often overlooked.Taking Tibetan wild ass on the Qinghai-Xizang Plateau as an example,we simulated species distribution under current(2019)and future scenarios(2100),constructed spatio-temporal connectivity networks,and assessed the spatio-temporal connectivity.The results show that under the current,SSP2–4.5 and SSP3–7.0 scenarios,suitable habitats for the Tibetan wild ass account for 21.11%,21.34%,and 20.95%of the total area,respectively,with increased fragmentation projected by 2100.78.35%of the habitats which are predicted to be suitable under current conditions will remain suitable in the future,which can be regarded as stable climate refuges.With the increase in future emission intensity,the percentage of auxiliary connectivity corridors increases from 27.65%to 33.57%.This indicates that more patches will function as temporary refuges and the auxiliary connectivity corridors will gradually weaken the dominance of direct connectivity corridors.Under different SSP-RCP scenarios,the internal spatio-temporal connectivity is always higher than direct connectivity and auxiliary connectivity,accounting for 42%–43%.Compared with the spatio-temporal perspective,the purely spatial perspective overestimates network connectivity by about 28%considering all current and future patches,and underestimates network connectivity by 16%–21%when only considering all current or future patches.In this study,a new approach of spatio-temporal connectivity network is proposed to bridge climate refuges,which contributes to the long-term effectiveness of conservation networks for species’adaptation to climate change.展开更多
The implementation of the ecological protection red line serves as a crucial protective barrier for the conservation of wild plants with extremely small populations by delineating specific geographical areas designate...The implementation of the ecological protection red line serves as a crucial protective barrier for the conservation of wild plants with extremely small populations by delineating specific geographical areas designated for their conservation.The implementation of a comprehensive set of conservation measures aimed at establishing a biodiversity conservation network for wild plants with extremely small populations has laid the foundation for the health and stability of ecosystems,as well as the harmonious coexistence of humans and the natural environment.Research on the conservation of wild plants with extremely small populations serves as a critical foundation for informing and enhancing the effective conservation of such populations.This paper provides a systematic examination of the theoretical and practical conservation status of certain wild plants with extremely small populations and discusses the conservation trends of these populations within the framework of ecological protection red line delineation.In the future,strategies for the conservation of wild plants with extremely small populations should be integrated with an analysis of the causes of endangerment.This approach will provide a robust foundation for applied research focused on the conservation of these vulnerable plant populations.展开更多
Melon(Cucumis melo L.)is a globally important fruit crop appreciated for its sweet taste,unique aroma,and nutritional value(Kaleem et al.,2024).Aroma,shaped by volatile organic compounds(VOCs),is a key trait influenci...Melon(Cucumis melo L.)is a globally important fruit crop appreciated for its sweet taste,unique aroma,and nutritional value(Kaleem et al.,2024).Aroma,shaped by volatile organic compounds(VOCs),is a key trait influencing consumer preference.These VOCs are mainly derived from amino acids,fatty acids,and terpenoid pathways(Chen et al.,2023).Esters contribute to fruity and sweet notes,whereas terpenes and C_(9) aldehydes/alcohols impart floral and melon-like aromas,respectively(Mayobre et al.,2024).展开更多
Dear Editor,In recent decades,vector-transmitted emerging and re-emerging diseases pose public health issues around the world,in which emerging tick-borne viruses(TBVs)have played a major role since they are widely di...Dear Editor,In recent decades,vector-transmitted emerging and re-emerging diseases pose public health issues around the world,in which emerging tick-borne viruses(TBVs)have played a major role since they are widely distributed.TBVs have a wide range of hosts,including humans,livestock and rodents,with some of them able to cause severe diseases in human and domestic animals,such as Jingmen tick virus(JMTV)(Qin et al.,2014),tick-borne encephalitis virus(TBEV)(Xing et al.,2017),and Alongshan virus(ALSV)(Wang et al.,2019).Of the merging TBVs,JMTV is a novel pathogen that was first identified in Rhipicephalus microplus collected from the Jingmen city of Hubei province,China in 2010(Qin et al.,2014).展开更多
基金This article is supported by the Fundamental Research Funds for the Central Universities(SWU1909514)the China Scholarship Council(201906990051).
文摘In the past fifty years,scholars have examined fields of England’s politics in the sixteenth and seventeenth centuries;however,the politics of mobility has not been extensively studied.This article addresses Prince Hal and King Henry Ⅴ’s wildness within mobility as an important role to the advancement of metaphorical wildness.King Henry Ⅴ’s“wildness”is an element that is often discussed in Shakespeare’s Henry Ⅳ and Henry Ⅴ.Locating in Prince Hal’s wandering to uncertainty,unsettledness and changeability a potential to unveil the disguised aspects of the assumed politics,Shakespeare focuses on the interlocking aspect of wildness and mobility.He calls for exploring a recognition of ideal character and tactical figure into a transitional strategy of it.In reorganising civil culture,Shakespeare sees the possibility of re-configuring the approach from aimless roaming to communal mobility.It is the approach of these mobilities through ways of wildnes that permits us to explore between wildness as a strategy and as a metaphor,and to understand in the notion of early modern mobility that is as tactical in ambition as it is consequential in such contexts of Shakespeare.
基金supported by the Natural Science Foundation of Hunan Province(No.2021JJ30589)Hunan Provincial Natural Science Foundation Sector Joint Fund(No.2023JJ60049).
文摘Approximately half of all cancers have p53 inactivating mutations,in addition to which most malignancies inactivate the p53 pathway by increasing p53 inhibitors,decreasing p53 activators,or inactivating p53 downstream targets.A growing number of researches have demonstrated that p53 can influence tumor progression through the tumor microenvironment(TME).TME is involved in the process of tumor development and metastasis and affects the clinical prognosis of patients.p53 participates in host immunity and engages in the immune landscape of the TME,but the specific mechanisms remain to be investigated.This review briefly explores the interactions between different states of p53 and TME components and their mechanisms,as well as their effects on tumor progression.To understand the progress of drug development and clinical studies related to p53 and tumor microenvironment.
基金supported by National Natural Science Foundation of China(32272153)Henan Province Science and Technology R&D Joint Fund(232301420025)+4 种基金National Key Research and Development Program of China(2023YFD1200200)the Key Research Project of the Shennong Laboratory(SN01-2022-03)Independent Innovation Foundation of Henan Academy of Agricultural Sciences(2024ZC024)China Agriculture Research System(CARS-13)Henan Provincial Agriculture Research System(S2012-5).
文摘Wild peanut(Arachis)species are promising sources of disease resistance for improving peanut cultivars.The objective of this study was to assess cross-compatibility among cultivated and wild peanuts in crosses between eight peanut cultivars and 27 wild species carrying the A,B,E,Ex,F,K,P,and H genomes.Embryo culture and chromosome doubling led to polyploids representing hybrids between cultivated peanut and A.stenosperma,A.macedoi,A.duranensis,A.villosa,and A.diogoi.The first two showed greater resistance to bacterial wilt than their cultivated parents.DNA markers were developed for verifying the hybrids and for identifying translocation or introgression lines with alien chromosome fragments.
文摘Background:Momordica charantia L.var.abbreviata Ser.(MCA),locally known as“ampalayang ligaw”,is a wild variety of Momordica charantia L.,and a valuable medicinal plant possessing hypoglycemic activity.However,it only grows in open fields and is not widely cultivated due to slow growth and low productivity.Methods:To enhance its overall plant health,a consortium of three Trichoderma spp.was inoculated into MCA.The effects on growth,floral biology,productivity,and total triterpenes were assessed to determine the efficacy of Trichoderma spp.as a sustainable and environment-friendly plant growth promoter.A consortium of three Trichoderma spp.(T.ghanense,T.pseudokoningii,and T.harzianum)mixed in equal proportions were applied as seed coat and soil drench according to previous recommendations.Results:Results show that Trichoderma-treated MCA exhibited significantly(P<0.05)greater leaf area and growth rate compared to the untreated control.Trichoderma likewise affected the floral biology of MCA with bigger flower sizes(P<0.01),earlier male flower emergence,and increased number of female flowers(P<0.05).Regarding productivity,Trichoderma significantly increased the fruit set,dry weight and length of fruits(P<0.01),number of fruits per plant,and seed germination percentage(P<0.05).An increase in shoot length was significantly correlated to a greater number of fruits hence with higher productivity.Trichoderma also significantly enhanced(22%increase)the total triterpenes in MCA leaves,probably owing to hormonal modulation of gene expression changes as previous studies have shown.The increased triterpene content suggests an enhanced pharmacological potential of Trichoderma-treated MCA for diabetes management,warranting further bioactivity studies.Conclusion:Therefore,these results reveal the efficacy of Trichoderma on MCA productivity enhancement,demonstrating the potential of Trichoderma-treated MCA to become more amenable to commercial cultivation.
基金supported by grants from the National Science Foundation of China to Yanwen Zhang(32272757,31972363)grants from Liaoning Provincial Department of Education Project to Dandan Wang(JYTMS20230698)grants from the Liaoning Provincial Science and Technology.Fund Project to Dandan Wang(2023JH2/101700200).
文摘Taxus cuspidata,a rare species of the Taxus genus,and its wild resources are under severe threat.The development of cultivated species has become an important strategy to replace wild species.The objective of this work was to elucidate the differences in secondary metabolite accumulation,particularly in the paclitaxel biosynthesis pathway,between wild and cultivated species.This study employed liquid chromatography-tandem mass spectrometry(LC-MS/MS)and RNA sequencing(RNA-Seq)technologies to conduct integrated metabolomic and transcriptomic analyses of wild and cultivated species of T.cuspidata.The results showed that the content of paclitaxel in cultivated species was significantly higher than in wild species,reaching 1.67 times that of the latter(p 0.01).Additionally,the<content of key paclitaxel precursors,GGPP and 10-deacetylbaccatin III,in cultivated species was 1.94 times(p 0.05)<and 1.71 times(p 0.01)higher than in wild species,respectively.Transcriptomic analysis identified 2606 differentially<expressed genes(DEGs),among which key enzyme genes related to paclitaxel biosynthesis(such as DXS,DXR,GGPS,etc.)were generally upregulated in cultivated species.Multiple key enzyme genes in both the 2-C-methyl-D-erythritol 4-phosphate pathway(MEP)and paclitaxel biosynthesis pathways were significantly upregulated in cultivated species.Conversely,genes and metabolites related to sugar metabolism were found to be higher in content in wild species.These findings reveal the significant advantage of cultivated species in paclitaxel production capacity,providing new insights into the metabolic regulation mechanisms during yew domestication.This has important implications for optimizing paclitaxel biosynthesis and guiding future improvements in T.cuspidata cultivars.
文摘A milu deer crosses a river in Dafeng,Jiangsu Province,on 2 July.The city is home to the world’s largest milu deer nature reserve,covering 78,000 hectares and hosting the largest wild population of the species globally.
基金supported by Wildlife Borne Infectious Diseases Monitoring Project of the State Forestry and Grassland Administration of China to Zhongzhong Tu(2020076060)the National Key Research and Development Program of China to Changchun Tu(32130104).
文摘Ephemeroviruses(EVs)are arthropod-borne rhabdoviruses and were isolated exclusively from cattle and haematophagous arthropods until two new ephemeroviruses were first identified from domestic pigs most recently.Here we report the identification of newer EVs in wild boar by meta-transcriptomic(MTT)sequencing.Further screening by specific RT-nPCR of tissue samples of 459 free-ranging wild boars collected between 2018 and 2023 from 26 provinces across China confirmed five positive wild boars in four provinces.Interestingly,two ticks especially collected from two positive wild boars were also EV positive.Finally,four complete genome sequences of wild boar ephemeroviruses(WbEVs)were obtained with two strains belonging to a new EV species,and the rest two falling into porcine ephemerovirus 2(PoEV2)species identified from domestic pigs.Our study has further extended EV host range and demonstrated natural circulations of divergent EVs in wild boars,in which ticks may play roles.Biological implications of EV infection in wild boars should be interesting topics for future investigations.
基金supported by the National Natural Science Foundation of China(Grant Nos.31972983 and 32072487)the Key Technology R&D Program of Zhejiang Province,China(Grant No.2021C02006)the Zhejiang Provincial Natural Science Foundation of China(Grant No.LY23C140001).
文摘In rice fields,rice plants usually grow alongside wild weeds and are attacked by various invertebrate species.Viruses are abundant in plants and invertebrates,playing crucial ecological roles in controlling microbial abundance and maintaining community structures.To date,only 16 rice viruses have been documented in rice-growing regions.These viruses pose serious threats to rice production and have traditionally been identified only from rice plants and insect vectors by isolation techniques.Advances in next-generation sequencing(NGS)have made it feasible to discover viruses on a global scale.Recently,numerous viruses have been identified in plants and invertebrates using NGS technologies.In this review,we discuss viral studies in rice plants,invertebrate species,and weeds in rice fields.Many novel viruses have been discovered in rice ecosystems through NGS technologies,with some also detected using metatranscriptomic and small RNA sequencing.These analyses greatly expand our understanding of viruses in rice fields and provide valuable insights for developing efficient strategies to manage insect pests and virus-mediated rice diseases.
基金Supported by National Natural Science Foundation of China(Grant Nos.12271370 and 12371294)the Youth Academic Innovation Team Construction project of the Capital University of Economics and Business(Grant No.QNTD202303)New Young Teachers’Research Initiation Fund Project,Capital University of Economics and Business(Grant No.XRZ2021046)。
文摘Testing the association of two high-dimensional random vectors is of fundamental importance in the statistical theory and applications.In this paper,we propose a new test statistic based on the Frobenius norm and subtracting bias technique,which is generally applicable to high-dimensional data without restricting the distributional Assumptions.The limiting null distribution of the proposed test is shown to be a random variable combining a finite chi-squared-type mixture with a normal approximation.Our proposed test method can also be a normal approximation or a finite chi-squared-type mixtures under additional regularity conditions.To make the test statistic applicable,we introduce a wild bootstrap method and demonstrate its validity.The finite-sample performance of the proposed test via Monte Carlo simulations reveals that it performs better at controlling the empirical size than some existing tests,even when the normal approximation is invalid.Real data analysis is devoted to illustrating the proposed test.
基金supported by the Fundamental Research Funds for the Central Universities(2572020DR10)Project on the Investigation,Supervision and Industry Regulation of Rare and Endangered Species(2024)。
文摘Illegal hunting and trafficking of wildlife and their derivatives extort unprecedented population decline of relatively many species pushing them towards extinction.Notwithstanding contemporary counteracting interventions at international,regional,national and local levels,wildlife farming is advocated as an alternative approach to minimize pressure on wild populations.For wildlife farming to be an effective conservation tool,the integration of wildlife forensics is inevitable to allow distinction between captive-bred and wild-caught species.To this end,we analyzed methylation rates of skeletal muscle samples(pectoralis major,triceps brachii,gastrocnemius,biceps femoris,and neck muscles)from 60 captive-bred and 30 wild-caught Common Pheasant.A total of 13,507 differentially methylated regions were identified between five wild-caught and five captive-bred individuals through whole-genome methylation sequencing(WGBS).Based on the selected five methylation sites,LOC116231076,LOC116242223,ATAD2B,EGFL6,and HS2ST,quantitative detection technique was developed using methylation-sensitive high-resolution melting curve(MS-HRM)to measure methylation rates.The results showed significant differences in methylation rates at all differential sites between wild-caught and captive-bred individuals(|t|=0.67–33.10,P=0.000–0.042).The discrimination accuracy rate of each locus was highest in the gastrocnemius muscle and lowest in the neck muscle.The discrimination accuracy rate on LOC116231076,LOC116242223,ATAD2B,EGFL6,and HS2ST methylation sites for gastrocnemius muscle was 64.98%,100.00%,68.54%,63.79%,and 63.70%,respectively;and for neck muscle it was 67.42%,68.06%,83.61%,65.04%,and68.85%,respectively.The united discrimination accuracy rate of the five loci were 100.00%for gastrocnemius muscle,99.78%for biceps femoris muscle,97.52%for pectoralis major muscle,93.96%for triceps brachii muscle,and 91.63%for neck muscle,respectively.The panel also revealed excellent repeatability,reproducibility,sensitivity and universality to mammals and avian species.This study establishes an effective,accurate and low-cost identification technology for the identification of wild and farmed Common Pheasant,and also provides a reference for the development of identification methods for other species.
基金supported by the National Key Research and Development Program of China(Grant Nos.2022YFF0711805,2022YFF0711801,and 2021YFF0704204)the Project of Sanya Yazhou Bay Science and Technology City,China(Grant No.SCKJ-JYRC-2023-45)+3 种基金the National Natural Science Foundation of China(Grant Nos.31971792 and 32160421)the Innovation Project of the Chinese Academy of Agricultural Sciences(CAAS)(Grant Nos.CAAS-ASTIP-2024-AII and ZDXM23011)the Special Fund of Chinese Central Government for Basic Scientific Research Operations in Commonweal Research Institutes(Grant No.JBYW-AII-2024-05)the Nanfan Special Project,CAAS,China(Grant No.YBXM2312).
文摘Accurate evaluation of disease levels in wild rice germplasm and identification of disease resistance are critical for developing rice varieties resistant to blast disease.However,existing evaluation methods face limitations that hinder progress in breeding.To address these challenges,we proposed an AI-powered method for evaluating blast disease levels and identifying resistance in wild rice.A lightweight segmentation model for diseased leaves and lesions was developed,incorporating an improved federated learning approach to enhance robustness and adaptability.Based on the segmentation results and resistance identification technical specifications,wild rice materials were evaluated into 10 disease levels(L0 to L9),further enabling disease-resistance identification through multiple replicates of the same materials.The method was successfully implemented on augmented reality glasses for real-time,first-person evaluation.Additionally,high-speed scanners and edge computing devices were integrated to enable continuous,precise,and dynamic evaluation.Experimental results demonstrate the outstanding performance of the proposed method,achieving effective segmentation of diseased leaves and lesions with only 0.22 M parameters and 5.3 G floating-point operations per second(FLOPs),with a mean average precision(mAP@0.5)of 96.3%.The accuracy of disease level evaluation and disease-resistance identification reached 99.7%,with a practical test accuracy of 99.0%,successfully identifying three highly resistant wild rice materials.This method provides strong technical support for efficiently identifying wild rice materials resistant to blast disease and advancing resistance breeding efforts.
基金supported by National Natural Science Foundation of China(No.61862037)Lanzhou Jiaotong University Tianyou Innovation Team Project(No.TY202002)。
文摘To solve the problems of redundant feature information,the insignificant difference in feature representation,and low recognition accuracy of the fine-grained image,based on the ResNeXt50 model,an MSFResNet network model is proposed by fusing multi-scale feature information.Firstly,a multi-scale feature extraction module is designed to obtain multi-scale information on feature images by using different scales of convolution kernels.Meanwhile,the channel attention mechanism is used to increase the global information acquisition of the network.Secondly,the feature images processed by the multi-scale feature extraction module are fused with the deep feature images through short links to guide the full learning of the network,thus reducing the loss of texture details of the deep network feature images,and improving network generalization ability and recognition accuracy.Finally,the validity of the MSFResNet model is verified using public datasets and applied to wild mushroom identification.Experimental results show that compared with ResNeXt50 network model,the accuracy of the MSFResNet model is improved by 6.01%on the FGVC-Aircraft common dataset.It achieves 99.13%classification accuracy on the wild mushroom dataset,which is 0.47%higher than ResNeXt50.Furthermore,the experimental results of the thermal map show that the MSFResNet model significantly reduces the interference of background information,making the network focus on the location of the main body of wild mushroom,which can effectively improve the accuracy of wild mushroom identification.
文摘On January 23,we arrived in Shuanghu County,Nagqu City,Xizang.With an average altitude of 5,000 meters,this is the heart of Changtang no man's land.Along the journey,Tibetan wild donkeys and Tibetan antelopes were often seen on both sides of the highway instead of traces of human presence,and sand and dust kept hitting our van.As the night fell,the highest county seat in the world finally came into view.
文摘A substantial body of research has been conducted with the objective of enhancing the understanding of Non-Timber Forest Products (NTFP) in Central Africa. A significant proportion of the studies focus on medicinal plants, in contrast to those that examine food products. Nevertheless, studies on edible wild mushrooms as NTFPs and cultivated mushrooms, on their economic potential and value chains in the Great Lakes Region, remain scarce and largely absent for some NTFPs. In light of the aforementioned considerations, the present study aims to examine the economic potential and value chain of the production sector of wild edible mushrooms (WEM) and cultivated mushrooms (CM) within the Virunga National Park (PNVi) and its surrounding areas in North Kivu, Democratic Republic of the Congo (DRC). To this end, a sample of 432 respondents was selected, distributed equitably among the actors of the Goma-Kitshanga-Mweso value chain, the Goma-Rutshuru chain, the Beni-Mutwanga chain, and the Beni-Mangina chain. A digital questionnaire consisting of open and closed questions was administered, and observations were carried out concurrently. The quantities of mushrooms sold were weighed and photographed. The results demonstrated that, when the eight-month fruiting period of wild and cultivated mushrooms was considered as a single year for all actors within the value chain, a picker could sell 6.1 kg at $2 and earn $12. A seller could sell 16 kg at $4 and earn $64, while a grower could sell 502 kg at $3 and earn $1506. Consequently, the CM grower generates a significantly higher profit than other participants in the value chain, despite the expenses he incurs. Ultimately, the domestication of WEM, highly prized by the local population of the Virunga National Park, has the potential to enhance their household incomes, as evidenced by the findings of this study.
基金supported by the National Natural Science Foundation of China(32372118 and 32188102)the Qian Qian Academician Workstation,China+3 种基金the Specific Research Fund of the Innovation Platform for Academicians of Hainan Province,China(YSPTZX202303)the Nanfan Special Project,Chinese Academy of Agricultural Sciences(ZDXM2315)the Chinese Academy of Agricultural Sciences Talent Plan-Outstanding Young Talentthe Zhejiang Province’s High-level Talent Special Support Plan-Young Talent,China。
文摘In natural ecosystems,the timely abscission of seeds in wild plants is a crucial adaptive trait that contributes to reproductive success,population renewal,and colony expansion(Thurber et al.2010).In contrast,the tendency for high seed shattering in domesticated crops,such as rice,not only reduces paddy yield but also complicates mechanized harvesting.
文摘Modern crops were derived from wild ancestors between 8000 and 12,000 years ago in a process called domestication,when humans selected plant types that gave better yield.For cereal plants,they carry so-called “domestication syndromes”,such as non-shattering spikes,free threshing grains,shorter seed dormancy,and larger grain size[1].But these early crop breeders selected only a small number of domesticated plants to satisfy their limited need,leading to a phenomenon called “domestication bottleneck”resulting in restricted genetic diversity among crop cultivars.Untapped crop wild relatives(CWRs)remain a source of traits to be bred into new cultivars with resilience to challenges facing modern agriculture.
基金financially supported by the National Key Research and Development Program of China(Grant No.2022YFF1303201).
文摘Enhancing the spatio-temporal connectivity of dynamic landscapes is crucial for species to adapt to climate change.However,the spatio-temporal connectivity network approach considering climate change and species movement is often overlooked.Taking Tibetan wild ass on the Qinghai-Xizang Plateau as an example,we simulated species distribution under current(2019)and future scenarios(2100),constructed spatio-temporal connectivity networks,and assessed the spatio-temporal connectivity.The results show that under the current,SSP2–4.5 and SSP3–7.0 scenarios,suitable habitats for the Tibetan wild ass account for 21.11%,21.34%,and 20.95%of the total area,respectively,with increased fragmentation projected by 2100.78.35%of the habitats which are predicted to be suitable under current conditions will remain suitable in the future,which can be regarded as stable climate refuges.With the increase in future emission intensity,the percentage of auxiliary connectivity corridors increases from 27.65%to 33.57%.This indicates that more patches will function as temporary refuges and the auxiliary connectivity corridors will gradually weaken the dominance of direct connectivity corridors.Under different SSP-RCP scenarios,the internal spatio-temporal connectivity is always higher than direct connectivity and auxiliary connectivity,accounting for 42%–43%.Compared with the spatio-temporal perspective,the purely spatial perspective overestimates network connectivity by about 28%considering all current and future patches,and underestimates network connectivity by 16%–21%when only considering all current or future patches.In this study,a new approach of spatio-temporal connectivity network is proposed to bridge climate refuges,which contributes to the long-term effectiveness of conservation networks for species’adaptation to climate change.
基金Supported by 2024 Central Financial Comprehensive Protection Project for Abies chensiensis(610000242000000026647)2024 Provincial Forestry and Grassland Reform and Development Fund for the National Key Wild Plant Protection Project(610000242000000028574)2024 Biodiversity Conservation Project(610000242000000024911).
文摘The implementation of the ecological protection red line serves as a crucial protective barrier for the conservation of wild plants with extremely small populations by delineating specific geographical areas designated for their conservation.The implementation of a comprehensive set of conservation measures aimed at establishing a biodiversity conservation network for wild plants with extremely small populations has laid the foundation for the health and stability of ecosystems,as well as the harmonious coexistence of humans and the natural environment.Research on the conservation of wild plants with extremely small populations serves as a critical foundation for informing and enhancing the effective conservation of such populations.This paper provides a systematic examination of the theoretical and practical conservation status of certain wild plants with extremely small populations and discusses the conservation trends of these populations within the framework of ecological protection red line delineation.In the future,strategies for the conservation of wild plants with extremely small populations should be integrated with an analysis of the causes of endangerment.This approach will provide a robust foundation for applied research focused on the conservation of these vulnerable plant populations.
基金supported by Project of Renovation Capacity Building for the Young Sci-Tech Talents Sponsored by Xinjiang Academy of Agricultural Sciences(Grant No.xjnkq-2021011)Key Research and Development Program of Hainan Province(Grant No.ZDYF2025XDNY089)+2 种基金Project of Fund for Stable Support to Agricultural Sci-Tech Renovation(Grant No.xjnkywdzc-2023001-35)Guangxi Agricultural Science and Technology Project,China Agriculture Research System of MOF and MORA(CARS-25)the Fundamental Research Funds for the Central Universities(Grant No.2662024JC004)。
文摘Melon(Cucumis melo L.)is a globally important fruit crop appreciated for its sweet taste,unique aroma,and nutritional value(Kaleem et al.,2024).Aroma,shaped by volatile organic compounds(VOCs),is a key trait influencing consumer preference.These VOCs are mainly derived from amino acids,fatty acids,and terpenoid pathways(Chen et al.,2023).Esters contribute to fruity and sweet notes,whereas terpenes and C_(9) aldehydes/alcohols impart floral and melon-like aromas,respectively(Mayobre et al.,2024).
基金supported by Wildlife Borne Infectious Diseases Monitoring Project of the State Forestry and Grassland Administration of China(2020076060)the National Key Research and Development Program of China to Changchun Tu(32130104).
文摘Dear Editor,In recent decades,vector-transmitted emerging and re-emerging diseases pose public health issues around the world,in which emerging tick-borne viruses(TBVs)have played a major role since they are widely distributed.TBVs have a wide range of hosts,including humans,livestock and rodents,with some of them able to cause severe diseases in human and domestic animals,such as Jingmen tick virus(JMTV)(Qin et al.,2014),tick-borne encephalitis virus(TBEV)(Xing et al.,2017),and Alongshan virus(ALSV)(Wang et al.,2019).Of the merging TBVs,JMTV is a novel pathogen that was first identified in Rhipicephalus microplus collected from the Jingmen city of Hubei province,China in 2010(Qin et al.,2014).
