Problems, challenges and future of plant disease management: from an ecological point of view

Plant disease management faces ever-growing challenges due to： （i） increasing demands for total, safe and diverse foods to support the booming global population and its improving living standards; （ii） reducing production potential in agriculture due to competition for land in fertile areas and exhaustion of marginal arable lands; （iii） deteriorating ecology of agro-ecosystems and depletion of natural resources; and （iv） increased risk of disease epidemics resulting from agricultural intensification and monocultures. Future plant disease management should aim to strengthen food security for a stable society while simultaneously safeguarding the health of associated ecosystems and reducing dependency on natural resources. To achieve these multiple functionalities, sustainable plant disease management should place emphases on rational adaptation of resistance, avoidance, elimination and remediation strategies individually and collectively, guided by traits of specific host-pathogen associations using evolutionary ecology principles to create environmental （biotic and abiotic） conditions favorable for host growth and development while adverse to pathogen reproduction and evolution.

Comprehensive benefits assessment of the ecological management model in Hobq Desert of China

The Hobq Desert is the seventh largest desert in China. Since 1988, the effects of ecological management in Hobq Desert have been obvious and a typical desertification control model developed gradually, which is well known as the ＂Hobq model＂. It is important to evaluate the comprehensive benefits of the ＂Hobq model＂, but this has not been addressed in previous studies. Thus, we established an index system to comprehensively evaluate the benefits of the ＂Hobq model＂, using an analytic hierarchy process method from 1988 to 2013. The results show the following： ecological benefits of the ＂Hobq model＂ had a positive trend, but with fluctuations during 2008 and 2009; economic benefits increased by 74% and the maximum value occurred in 2013; and social benefits increased steadily, but with fluctuations in 2010 and 2011. The social benefits were higher than ecological and economic benefits in the same period. Trends in overall benefits of the ＂Hobq model＂ were similar to changes in ecological benefits, which increased each year.

The role of social resource of indigenous people in local ecological resource management in China: A preliminary case in Zhangye, Northwestern China

Social resources of indigenous people are valuable wealth, including the social norms, the relational network, belief, attitude as well as the social system which is accumulated from generation to generation. Those social resources are very important for local ecological resource management, which can help diffuseness and communion of skills and traditional conservation techniques for conserving and restoring the ecological sites. Social capital is one indicator of social resources, which is accepted widely. In order to investigate the role of social resources of indigenous people in local ecological resource management, the authors studied the relation between social capital of indigenous people and local ecological resource management, taking Zhangye City as an exam-ple. In this paper, social capital of indigenous people is quantified by constructing social capital index, composed of structural so-cial capital and cognitive social capital; local ecological resource management is quantified by constructing 'Grain for Green Pro-ject' performance index. Based on correlation analysis approach and logistic regression analysis approach, the authors analyzed the relation between social capital and 'Grain for Green Project' performance index, as well as the relations between 'Grain for Green Project' performance index and other factors such as per capita net income, medical treatment and so on. Results showed that the correlation between social capital and 'Grain for Green Project' performance index was positive, the coefficient was 0.761, with P<0.01. An increase of 1 unit in social capital is associated with an increase of 1.550 units in 'Grain for Green Project' per-formance. With factor, such as faction, per capita net income, medical treatment, increasing 1 unit, the 'Grain for Green Project' performance index will increase 3.912, 1.039 and 1.005 units, respectively.

Research on Marine Talent Management Based on the Perspective of Talent Ecological Chain

On the basis of ecological theory and methods,the current situation and problems of China s marine talent ecological chain were analyzed,and solutions to corresponding problems were proposed.

A Study on Ecological Management for the Yellow River Basin in Sichuan

Promoting ecological protection and high-quality development of the Yellow River Basin is a major national strategy that is planned and promoted by President Xi Jinping.As an important ecological formation in the Yellow River Basin and an important part of the“China Water Tower,”the Sichuan part of the Yellow River Basin plays an important role in ecological management of the whole basin.Therefore,based on the present situation and the rich experience of ecological protection and high-quality development in the Yellow River Basin in Sichuan,this study puts forward a feasible plan for long-term ecological management of the Yellow River Basin in Sichuan.

Research on Management of Marine Science and Technology Talent Ecological Chain

Firstly,the current situation of China’s current marine science and technology talent ecological chain was analyzed,and then the problems in talent training were discussed.Finally,countermeasures to improve the talent ecological chain were proposed.

Ecological Land Suitability for Arid Region at River Basin Scale:Framework and Application Based on Minmum Cumulative Resistance(MCR) Model

As an important and typical arid inland region in China,Shiyang River Basin plays an important role in maintaining the sustainable development of eco-environment,whose ecological land suitability restricts the development of the local human activities.Therefore,Shiyang River Basin was selected as the case study,the minimum cumulative resistance(MCR)model and GIS technique were integrated to create land suitability evaluation map.We calculated the MCR value of ecological source and living source,and divided the whole basin into five partitions according to the difference between ecological source and living source,and analyzed the patterns and characteristics of the ecological land suitability evaluation(ELSE)regions,respectively.The results showed that:1)The suitable ecological land includes prohibited development region and restricted development region,which accounts for 15.45%and 23.35%of the total land area of the Shiyang River Basin,respectively.These two regions mainly distributed high altitude region in the southern Qilian Mountain and low altitude region where had high density of rivers.2)The protection of ecological land requires not only conserving existing ecological land but also focusing on ecological buffer belts around ecological sources and improving ecological land service ability.3)Ecological networks should be constructed through artificial planting trees around the boundary of oasis and ecological restoration region.Buffer greenbelts should also be established between optimized development region and ecological restoration region.

Ecological construction-An alternative developing way for developing countries

Based on case studies and experience of Chinese urban and rural development, the concept of ecological construction may be the feasible way for developing countries.

Comparative assessment on rodent impacts and cultural perceptions of ecologically based rodent management in 3 Afro-Malagasy farming regions

Rodents generate negative consequences for smallholder farmers in Africa that directly impact household and livestock damage,food security,and public health.Ecologically Based Rodent Management(EBRM)seeks sustainable solutions for the mitigation of rodent damage through assessments of rodent population dynamics,agro-ecosystems,and socio-cultural contexts.We adopt a comparative approach across 3 rural Afro-Malagasy smallholder farming regions in South Africa,Tanzania,and Madagascar to assess the household impacts of rodent pests and current perceptions and preferences associated with several rodent control measures.We conducted focus group questionnaires and interviews in different study site locations.Rodents assert multiple impacts on Afro-Malagasy farmers demonstrating recurrent and emerging agricultural and household costs,and public health impacts.We identify a significant knowledge gap in educating communities about the application of different EBRM approaches in favor of acute poisons that are perceived to be more effective.Cultural issues and taboos also have a significant impact on the social acceptance of rodent hunting as well as biological control using indigenous predators.We advocate for an enhanced investigation of the socio-cultural beliefs associated with different rodent practices to understand the factors underlying social acceptance.A collaborative approach that integrates the perspectives of target communities to inform the design of EBRM initiatives according to the specific agro-ecosystem and socio-cultural context is necessary to ensure programmatic success.

Developing an integrated urban ecological efficiency framework for spatial ecological planning:A case on a tropical mega metropolitan area of the global south

Rapid urbanization has emerged as one of the most critical challenges to ecological sustainability in urban areas.In developing countries,the degradation of the ecosystem is more prominent due to the lack of urban planning.Thus,it has become urgent for researchers to identify the ecological efficiency(EE)changes imposed by urban expansion and promote sustainable land use planning.This study aims to develop a comprehensive urban ecological efficiency(UEE)framework in the Kolkata Metropolitan Area(KMA),India,from 2000 to 2020.Principal component analysis(PCA)was used to develop a remote sensing-based UEE index(UEEI)based on five effective ecological parameters(Greenness,Dryness,Heat,Wetness and vegetation health.A single sensitivity parameter was also calculated to determine the role of a single parameter based on which management strategies can be carried out.The findings showed that(i)there were substantial deteriorations of UEE in the last 20 years.In 2000 the areas with good EE were about 65.5%which declined to 53.72%in 2010 and 20.87%in 2020.The areas with good UEE decreased 68%and 61%from 2000 to 2020 and 2010 to 2020,respectively;(ii)the areas with good UEE were 52%in 2000,while 38%in 2010.Most urban centres(Bhadreshwar,Champdani,Srirampur,Bally,Howrah,Kamarhati,Baranagar,Dum Dum,South Dum Dum,Rajarhat,Bidhannagar)located around the Kolkata megacity are characterized by poor and very poor EE(ranges of 0.60-1.00).Thus,spatiotemporal pattern of UEE could assist to clarify the administrative responsibilities as well as obligations.In addition to this,the UEE framework can help for scientific guidance of urban ecosystem protection and restoration through comprehensive spatial landscape planning.

HIGH QUALITY DEVELOPMENTAL APPROACH FOR SOIL AND WATER CONSERVATION AND ECOLOGICAL PROTECTION ON THE LOESS PLATEAU

The Loess Plateau is the core area in the Yellow River basin for implementing environmental protection and high-quality development strategies. A series of ecological projects has implemented aimed at soil and water conservation and ecological management on the Loess Plateau over the past 70 years. The effects of the ecological projects are apparent mainly through a marked increase in vegetation cover, controlled soil erosion and reduced flow of sediment into the Yellow River, continual optimization of the industrial structure and increased production from arable land, poverty alleviation and greater prosperity, and optimal allocation of space for biological organisms.Major problems have also been analyzed in ecological management including the fragile ecosystem of the region, maintaining the stability of vegetation,lower agricultural productivity and continued risk from natural disasters. Some suitable schemes and models have been developed for the coordinated development of the region through research and demonstration, striking the optimum balance between rural industry and ecology, and increased regionalcapacity to supply high-quality ecological products. Countermeasures to address the problems are suggested to guide ecological management and high-quality development in the future.

The net ecosystem services value in China's Mainland

Protection of the ecological environment is an effective strategy for maintaining ecosystem health,improving provision of ecosystem services,and increasing human well-being.However,traditional calculations of the value of ecosystem services(VES)provide weak guidance because they ignore the costs of these services,leading to economically inefficient strategies.To understand the difference between VES and the net ecosystem services value(NES,after subtracting costs from VES)and to improve evaluations of ecosystem services,we estimated NES for China's Mainland(including farmland,grassland,forest,and wetland).NES totaled 10.0×10~3RMB ha^(-1)yr^(-1)in 2014,which is only 35.1%of the corresponding VES.Grassland NES was–0.7×10~3RMB ha^(-1)yr^(-1),in contrast with a positive grassland VES.NES of farmland,grassland,forest,and wetland in2014 totaled 7.2×10^(12)RMB,accounting for 27.0%of China’s GNP.Recent Chinese planning based on VES emphasizes forest conservation and ignores the conservation of other important ecosystems,such as grassland,leading to a continuing loss of China’s natural capital.Due to regional differences in economic conditions,resource endowments,and geographical characteristics,VES and NES differ among regions.To maximize the ecological benefits from conservation,it is necessary to account for these differences by comparing strategies based on NES,thereby choosing projects that maximize both economic and ecological benefits.To maintain the ecological balance,ecological restoration and socioeconomic activities should account for the costs of providing ecosystem services.This is essential to minimize the costs and maximize the benefits of projects.

Social and cultural dimensions of rodent pest management

Rice production in Vietnam is threatened by rodent pests, with a significant increase in impact reported from 1990through to the early 21st century. Pre-harvest rice losses are typically 5–10%, with losses of >20% occurring insome years in some regions. Farmers’ rodent control practices are generally reactive and rely essentially on chemicaland physical methods. Ecologically-based rodent pest management (EBRM) was developed in the late 1990s tomanage rodents in rice-based farming systems in Vietnam and other parts of South-East Asia. EBRM combinesboth cultural and physical rodent management practices such as synchrony of cropping, short 2-week rat campaignsat key periods in key habitats, increasing general hygiene around villages, and use of a communitytrap-barrier system. Although EBRM has been reported to be economically profitable, the successful adoption ofthis set of technologies requires community participation. In this paper we address issues relating to the adoptionand sustainability of EBRM in lowland irrigated rice fields in the Mekong Delta in Vietnam. We particularly explorethe social and cultural mechanisms involved in maintaining community participation to further understandthe conditions under which EBRM works and does not work. Positive indications of sustained use of community-based EBRM include: a policy pronouncement from the prime minister directing the use of integrated rodentmanagement;the use of existing cooperatives for developing community actions;budgetary allocation fromprovincial and local governments;diffusion of EBRM to provinces in the south and north that are not involved infarmer participatory field trials;and the adoption of EBRM by a non-governmental organization, World VisionVietnam, in their area-development programs.

Suggesting the use of integrated methods for vole population management in alfalfa fields

Human-made agro-ecosystems lack negative feedback controls, which may result in rodent population explosions,causing considerable economic loss and thus increasing human–wildlife conflicts. The traditional solution is theextensive use of rodenticides, which have a negative impact on the environment. In Beit-Sheaan Valley, Israel,which is located on a major route for migrating birds, poisoning of voles may result in the death of birds that preyon the dead voles (e.g. storks and herons). In the present essay we discuss some integrated methods, based on theimplementation of ecological principles in agro-ecosystems, that could be used to decrease the use of rodenticides.The first method is light interference during winter (long scotophase), which can result in the death of the socialvole Microtus socialis kept in enclosures under natural conditions. Under laboratory conditions such interferencecauses a decrease in thermoregulatory ability in the cold. As light interference is a source of pollution, only activevole burrows should be illuminated. The second method involves using the mobile irrigation pipelines to flood thevole burrows and force them to escape into the open, where diurnal birds such as storks and herons will prey onthem. The third method involves the use of nesting boxes for barn owls and stands for diurnal raptors, both ofwhich prey on voles. The great advantage of using an integrated approach is that voles cannot become adapted toany one of the methods. Such integrated methods, together with appropriate treatment of alfalfa fields by farmers,can provide an efficient and sustainable pest control approach.

探索生态系统服务对景观变化的响应——以青海省东部为例

The degradation of ecosystem structure and function on the Qinghai-Tibet Plateau is the result of a combination of natural and anthropogenic factors,with landscape change driven by global change and human activities being one of the major ecological challenges facing the region.This study analyzed the spatiotemporal characteristics of ecosystem services(ESs)and landscape patterns in eastern Qinghai province(EQHP)from 2000 to 2018using multisource datasets and landscape indices.Three ecosystem service bundles(ESBs)were identified using the self-organizing map(SOM),and changes in ecosystem structure and function were analyzed through bundle-landscaped spatial combinations.The study also explored the interactions between ESs and natural and human factors using redundancy analysis(RDA).We revealed an increase in total ecosystem service in the EQHP from 1.59 in 2000 to 1.69 in 2018,with a significant change in landscape patterns driven by the conversion of unused land to grassland in the southwest.Forestland,grassland,and unused land were identified as important to the supply of ESs.In comparison to human activities,natural environmental factors were found to have a stronger impact on changes in ESs,with vegetation,meteorology,soil texture,and landscape composition being the main driving factors.However,the role of driving factors within different ESBs varied significantly.Exploring the response of ecosystem services to changes in landscape patterns can provide valuable insights for achieving sustainable ecological management and contribute to ecological restoration efforts.

The status of fertility control for rodents—recent achievements and future directions

Management of overabundant rodents at a landscape scale is complex but often required to sustainably reduce rodent abundance below damage thresholds.Current conventional techniques such as poisoning are not species specific,with some approaches becoming increasingly unacceptable to the general public.Fertility control,first proposed for vertebrate pest management over 5 decades ago,has gained public acceptance because it is perceived as a potentially more species-specific and humane approach compared with many lethal methods.An ideal fertility control agent needs to induce infertility across one or more breeding seasons,be easily delivered to an appro-priate proportion of the population,be species specific with minimal side-effects(behavioral or social structure changes),and be environmentally benign and cost effective.To date,effective fertility control of rodents has not been demonstrated at landscape scales and very few products have achieved registration.Reproductive targets for fertility control include disrupting the hormonal feedback associated with the hypothalamic-pituitary-gonadal axis,gonad function,fertilization,and/or early implantation.We review progress on the oral delivery of various agents for which laboratory studies have demonstrated efficacy in females and/or males and synthesize progress with the development and/or use of synthetic steroids,plant extracts,ovarian specific peptides,and immunocontracep-tive vaccines.There are promising results forfield application of synthetic steroids(levonorgestrel,quinestrol),chemosterilants(4-vinylcyclohexene diepoxide),and some plant extracts(triptolide).For most fertility control agents,more research is essential to enable their efficient and cost-effective delivery such that rodent impacts at a population level are mitigated and food security is improved.

Impact of contraceptive hormones on the reproductive potential of male and female commensal black rats (Rattus rattus)

The black rat is considered one of the world’s top pests.With increased restrictions on rodenticides,new alternatives to manage rats are urgently needed.Research on the use of contraceptive hormones,levonorgestrel(LE),and quinestrol(QU),have been evaluated against some rodent species,and this research is thefirst study to assess these on black rats.Hormones were incorporated into rodent bait at 10 and 50 ppm concentrations singly and in combination(EP-1).Groups of 10 animals of each sex were fed the baits over 7 days.Lower bait consumption was observed with slight body mass reductions.On dissection,it was observed that the uterus was in a state of edema and male reproductive organs weighed less with reduced sperm counts/motility.The 2 most promising baits,50 ppm QU and EP-1,were used to assess impact on pregnancy and litter size.Pregnancy was reduced from 70%success when both males and females consumed untreated bait,down to 30%when males had consumed contraceptive bait but females had not,and down to 0%when females had consumed contraceptive bait,regardless of whether they had paired with a treated or untreated male.Litter size in the untreated pairs was 8 pups,but only 4 pups in those cases where the male only had consumed the contraceptive.Further studies should investigate how long the effect lasts and its reversibility.Field studies at the population level may also shed light on the practicality of using contraceptive baits for black rats in different habitats.

Ethnobotanical studies of plants of Charkotli Hills, Batkhela District, Malakand, Pakistan

A survey was conducted with the aim to document the indigenous information of Charkotli Hills,Batkhela District,Malakand,Pakistan.The area has rich vegetation and a high potential for ethnobotanical utiliza-tion.Information was collected on various traditional uses of 100 plants distributed over 49 families,of which 43 families were of dicot,2 of monocot,2 of pteridophyta,and 1 of gymnosperms.Most plants have more than one local use.Sixty-six plants were found to be medicinal species,21 fruit and edible seed species,11 furniture species,18 fodder or forage species,12 vegetable species,12 fuel species,11 thatching and building species,5 hedge or fencing species,5 timber wood species,5 poisonous plants,3 species used in ketchup,2 fixed oil yielding species,2 miswak species,2 species for making sticks for cattle and defense purposes,2 species cultivated for ornamental purposes,2 species used as mehindi by girls,1 irritant species,1 species for the making of Salai(a little stick for applying‘surma’to the eyes),1 species for tanning,1 species used as refresher in milk pots,1 species giving gum used as chewing gum,and 1 species used as insect repellent.The area is under heavy pressure of deforestation and overgrazing,which have reduced the regeneration of woody plants.Proper ecological manage-ment is required to protect the wildlife and ethnobotanical resources for the coming generations.

Impact of fertility versus mortality control on the demographics of Mastomys natalensis in maize fields

The multimammate mouse,Mastomys natalensis,is the most common rodent pest species in sub-Saharan Africa.Currently,rodenticides are the preferred method used to reduce the population of rodent pests,but this method poses direct and indirect risks to humans and other non-target species.Fertility control is a promising alternative that has been argued to be a more sustainable and humane method for controlling rodent pests.In this study,we compared the effectiveness of fertility control bait EP-1(quinestrol(E)and levonorgestrel(P),10 ppm)and an anticoagulant rodenticide bait(bromadiolone,50 ppm)on the population dynamics of M.natalensis in maizefields in Zambia during 2 cropping seasons.M.natalensis was the most abundant species in maizefields(77%of total captures).Fertility control reduced the number of juveniles and suppressed population growth of M.natalensis at the end of the 2019–2020 cropping season.The population density initially decreased after rodenticide treatment,but the population rapidly recovered through immigration.None of the treatments influenced maize damage by rodents at germination(F2,67=1.626,P=0.204).Applying the treatments during the maize seeding time was effective at suppressing population growth at the end of the cropping season than application the month before maize seeding.This research indicates that a single-dose delivery of EP-1 and rodenticide have comparable effects on the population dynamics of M.natalensis.Thesefindings are important in developing fertility control protocols for rodent pest populations to reduce maize crop damage and improve yields.