The effects of green manure on soil microorganisms and physicochemical properties, corn yield, and quality were summarized and analyzed, based on relevant literature and work practice. By rolling or intercropping green manure crops, the organic matter and microbial content in the soil can be increased, its physical and chemical properties can be improved, and its water and fertilizer retention capacity can be enhanced; The application of green manure can promote the growth of corn, increase its grain yield, and also have a certain promoting effect on its quality traits such as amino acids and proteins. Different types of green manure have different effects on soil physical and chemical properties and corn growth. Suitable green manure crops should be selected based on soil fertility conditions, production goals, etc. to improve the yield and quality of corn.
8 rice varieties, including LQ183, LQ189 and LQ192 were used as materials, the artificial simulation of seed aging method (temperature 43℃, humidity 99%) was adopted, to investigate the changes in leaching conductivity, peroxidase (POD) activity, and single nucleotide content of aged rice seeds, and investigate the effects of artificial aging treatment on their physiological and biochemical characteristics. The results showed that there was a statistically significant difference in the conductivity of rice seed leachate with different aging treatment days (P<0.01), and the conductivity of the leachate gradually increased with the extension of aging days; The POD enzyme activity showed different trends with the extension of aging days, but ultimately showed a decreasing trend; The content of single nucleotide did not show a significant linear relationship with the extension of aging treatment days; With the gradual extension of aging days, seed vitality gradually decrease, and the content of malondialdehyde (MDA) inside the seeds will gradually increase; The trend of soluble protein content in rice seeds varies among different varieties, with some varieties showed an increase followed by a decrease, while others showed a decrease followed by an increase; The soluble sugar content of rice seeds was on the rise. It was found that the conductivity of the leachate, MDA content, and soluble sugar content of seed leachate could be important indicators for evaluating the quality and storage tolerance of rice seeds.
The input-output data of potato in S Province from 2011 to 2022 were selected, and the data envelop analysis method was used to explore their production benefits and efficiency. The results showed that the overall cost of potato production in the study area had been increasing year by year, with significant increases in cost elements such as labor, seed, fertilizer, and land transfer; The profit margin fluctuates greatly, indicating a large potential for improvement in production efficiency and output value; Its overall efficiency fluctuates, and there was significant room for improvement in production efficiency; The overall trend of return to scale coefficient was on the rise, and most of them were increasing returns to scale, indicating the need for moderate development of potato scale operations. Based on the current situation of potato production efficiency in the research area, measures to improve quality and efficiency were proposed, including further construction of agricultural infrastructure, promoting full mechanization, accelerating the construction of the industrial chain, and improving social service capabilities, to provided references for the high-quality development of the potato industry.
To screen out the most efficient combination of control agents for the prevention and control of wheat diseases in the middle to late stages, 7 new agents such as 18.7% propyrimidin suspension(Yangsui) and 6 conventional agents such as 50% benzoyl propiconazole aqueous emulsion(Yingyue) were applied at jointing booting stage, heading and flowering stage and blooming stage, respectively, with no application of drugs as blank control. The prevention and control effects of Fusarium head blight in the middle to late stage of wheat were investigated, and the safety and yield of wheat were observed. The results showed that each treatment combination was safe for wheat growth under experimental doses, had good control on scab, powdery mildew and rust in the middle to later stages of wheat, and had good yield increase effect. Among them, the T2 treatment (Jointing and booting stage used Yangsui 750 mL/hm2+ Licheng 300 mL/hm2+ Alika 150 mL/hm2+ Yishibang 750 mL/hm2; Heading and flowering used Maitian 900 mL/hm2+ Maitian partner 600 mL/hm2+ Alika 150 mL/hm2+ Yishiduojin 750 mL/hm2; Flowering used Maitian 900 mL/hm2+ Maitian partner 600 mL/hm2+ Yishiduojin 750 mL/hm2) had the best control effect and the highest wheat yield. In conclusion, different agents were used in the common areas of wheat Fusarium head blight could effectively control wheat disease and delay the development of its drug resistance.
To determine the appropriate concentration of exogenous abscisic acid (ABA) for spraying during the seedling stage of red cluster pepper, Luoyan No.9 red cluster pepper was used as the material and the leaves of 6-leaf 1-heart stage seedlings with 5, 10, and 20 mg/L ABA respectively was sprayed, with water as the control (CK). The growth indicators such as plant height, stem diameter, and dry weight, as well as antioxidant enzymes Peroxidase (POD), Catalase (CAT), Superoxide dismutase (SOD) activity, Malondialdehyde (MDA) content, and soluble sugar content of red cluster pepper seedlings were measured under different concentrations of ABA treatment. The results showed that compared with CK, the seedling height, stem diameter, and dry weight were all increased after exogenous ABA spraying at different concentrations, while the relative water content of the plants remained basically unchanged. The seedlings treated with 5 mg/L ABA showed significant changes, with increased activities of POD, CAT, and SOD, decreased MDA content, and a certain increase in soluble sugar content. Based on the above results, 5 mg/L ABA had a significant impact on the growth and physiological indicators of red cluster pepper seedlings. It was a suitable concentration for spraying pepper seedlings and can improve their stress resistance to a certain extent. The study results provided references for the application of exogenous ABA in the seedling stage of red cluster pepper.
To explore the application effect of water-soluble fertilizers with different in autumn cherry tomato production, cherry tomato Qingxia 66 was used as the experimental material. 5 different functional water-soluble fertilizer treatments were set up, including organic water-soluble fertilizer (treatment 1), bacterial embroidery duture complex microbial fertilizer (treatment 2), Aerge microalgae nutrient solution (treatment 3), seaweed small molecule sugar nutrient solution+seaweed oligosaccharide activator (treatment 4), and conventional large element water-soluble fertilizer (CK). The effects on plant growth, single fruit weight, soluble solids, yield, and economic benefits were determined. The results showed that the tamato plant height of treatment 1 was the highest, at 151.2 cm, while the stem thickness of treatments 3 and 4 was the thickest, both at 0.97 cm; The single fruit weight was highest in treatment 1, at 17.1 g, and the soluble solids content was highest in treatment 4, at 9.54%; The yield and economic benefits of treatment 1 were the highest, at 33 451.5 kg/hm2 and 94 411.5 yuan/hm2, respectively. Overall, compared with conventional large element water-soluble fertilizers, organic water-soluble fertilizer and seaweed small molecule sugar nutrient solution+seaweed oligosaccharide activator had shown better promoting effects in improving the growth and increasing the yield of cherry tomatoes.
The vegetable production practice was combined, the common pests and diseases in vegetables, application of the four diagnostic methods of observing, smelling, asking, and cutting in identifying pests and diseases, and its comprehensive prevention and control measures were summarized and analyzed. Common diseases in vegetables include infectious diseases (fungal diseases, bacterial diseases, viral diseases, and root knot nematode diseases) and non infectious diseases (physiological diseases); Common insect pests mainly include insects, mites, and mollusks. The four diagnostic methods refer to the accurate identification of vegetable pests and diseases through observation, smelling, questioning, and palpation, providing a basis for precise prevention and control; Based on the characteristics and actual situation of diseases and pests occurrence, a comprehensive prevention and control technology combining agricultural control, biological control, physical control, and chemical control can effectively control the occurrence of vegetable pests and diseases, ensuring the quality and safety of vegetables. The research results provided references for improving vegetable yield and quality.
To investigate the diversity of bacterial communities in the intestinal tract of Whitmania pigra and soil of enviroment, high-throughput sequencing technology was used to determine the bacterial communities in the intestinal tract of this species.and soil of enviroment The results showed that there were significant differences in bacterial community diversity between and community structure intestinal and soil samples,indicated that soil had little effect on the establishment of intestinal bacterial community. Compared with soil samples, the richness and diversity of bacteria in intestinal samples were significantly reduced. The dominant bacteria in the gut were Firmicutes 40.64%, Proteobacteria 28.94% and Bacteroidota 16.20%. The dominant bacteria in soil were Proteobacteria 48.95%, Bacteroides 16.69% and Actinobacteriota 14.85%. The dominant genera were Aeromonas 23.76%, Cetobacterium 9.98% and Epulopiscium 8.16%. The dominant genera of the soil groups were Hydrogenophaga 6.16%, Flavobacterium 11.36% and Aeromonas 5.26%. There were differences in transport pathway, carbon cycle and immunity between the two. The research results provided a reference for understanding the relationship between intestinal bacterial community of Whitmania pigraand and soil environment.
To screen the tyrosine medium formula that could make Bacillus subtilis var. niger produce melanin stably, the tyrosine medium was optimized by single factor experiment method, and the effects of Tyrosine (L-tyrosine, 0, 0.5, 1.0, 2.0 and 3.0 g/L, respectively), carbon source (glucose, 0, 0.5, 1.0, 2.0 and 3.0 g/L, respectively), nitrogen source (tryptone, 1.0, 2.0 and 3.0 g/L, respectively),amino acid (casein,0, 10.0, 20.0, 40.0 and 60.0 mL/L, respectively) and induction time (24, 48, 72 and 96 h) on the production of melanin by Bacillus subtilis var. niger were investigated. The adaptability of 4 kinds of indicators, including ATCC 9372 biological indicator sterilized by Fujie brand ethylene oxide, was verified. The results showed that the optimal addition amounts of L-tyrosine, glucose, tryptone and casein were 0.5, 0.5, 0.5 g/L and 10 mL/L, respectively. The optimal culture time was 72~96 h. Under this condition, the Bacillus subtilis var. niger could be induced well, and the melanin produced was stable. The results provided a reference for the screening, culture and further application of Bacillus subtilis var. niger.
To explore the characteristics of forest community species composition and structure in the Nankunshan Nature Reserve, the sample plot survey method was used to investigate all woody plants with a breast height diameter ≥ 1 cm in the sample plot, and their community tree species composition, distribution pattern of tree species abundance and diameter class structure were analyzed. The results showed that there were a total of 2 576 woody plants with a breast height diameter of ≥ 1 cm in the sample plot, belonging to 35 families, 60 genera and 98 species. There were 22 genera and 53 species in 6 dominant families including Lauraceae, Fagaceae and Rubiaceae. Machilus chinensis, Neolitsea chui and Lithocarpus hancei were the dominant tree species; There were 16 rare species and 37 occasional species in the sample plot; Tree diameter class followed an inverted“J” shape distribution. This indicated that the overall structure of the community was stable, the growth status of trees was healthy, there were no obvious faults in the plot, and the community was generally well updated. The research results provided references for understanding the forest ecosystem and protecting its biodiversity in the study area.
Based on field survey data of forest communities in the upper and middle reaches of the Wenyu River in Shanxi Province, the forest communities in this area were classified and sorted by quantitative ecology of vegetation. Two way indicator species analysis (TWINSPAN) was used to classify the forest communities in the study area, dividing 52 forest plots into 13 clusters, the dominant clusters mainly include Cluster Imainly including Cluster I (Picea meyeri, Vicia unijuga and Carex lancifolia), Cluster II (Betula platyphylla, Picea meyeriCorylus heterophylla and Carex lancifolia), and Cluster III (Picea wilsonii, Rosa bella and Carex lancifolia). The results of canonical correspondence analysis (CCA) showed that altitude was the main controlling environmental factor affecting the distribution of communities and dominant species in the study area. Dominant species and environment, as well as communities and environment, had a relatively consistent spatial distribution pattern, that was, the correlation between dominant species and environment directly reflected the correlation between communities and environment. The research results provided references for the protection and management of forest communities in the study area.
8 excellent clones of annual hybrid Liriodendron Sino-americanum, including Min L. Sino-americanum No.5 were selected, their afforestation survival rate, tree height, and breast height diameter were compared with ordinary L. Sino-americanum cuttings and 3-generation container seedlings of Chinese fir as controls. The results showed that the survival rate of ordinary L. Sino-americanum cuttings was 91.4%, the survival rate of Chinese fir 3-generation container was 92.7%, the survival rate of annual hybrid L. Sino-americanum cuttings was 92.5%, with no statistically significant difference compared to the control group (P>0.05). The average tree height and diameter at breast height of the excellent clone of annual hybrid L. Sino-americanum were 2.8 m and 3.1 cm, respectively. The differences in tree height and diameter at breast height were statistically significant (P<0.05) compared to the Chinese fir 3-generation container and ordinary L. Sino-americanum; Among the 8 excellent clones, varieties Min L. Sino-americanum No.5, Min L. Sino-americanum No.6, and Min L. Sino-americanum No.9 were selected to had better growth conditions. The research results provided a reference for the promotion and application of excellent clones of hybrid L. Sino-americanum.
To analyze the role of native tree species in forestry ecological construction, native tree species and their characteristics were mainly introduced, their role in forestry ecological construction were analyzed, and application strategies were put forward in 3 aspects: scientific planning and planting, protection and breeding technology, ecological education and public participation. Native tree species had the characteristics of strong adaptability, outstanding landscape value and good economy, and their ecological value and landscape value could bring ecological and economic benefits to the local area,and promote the benign development of forestry ecosystem. Native tree species have obvious advantages in forestry ecological construction, which should be full valued, applied and promoted, and scientifically planned and planted according to their growth habits, and research on the protection and breeding of native tree species resources should be strengthened. The awareness of protecting native tree species and the enthusiasm of participating in forestry ecological construction were enhanced by carrying out ecological education activities. The results provided references for optimizing native tree species selection and promoting forestry ecological construction.
The resource of Chloranthaceae is rich, most of which can be used for medicinal purposes. Through the sorting and analysis of the Chloranthaceae plant specimens preserved in the Chinese Virtual Herbarium and related literature, the current status of resources, distribution, altitude, habitat, and utilization of the species in the Guizhou Province region had been understood. The results indicate that there were 2 genera and 12 species of Chloranthaceae in this region area, which were vertically distributed between 150 to 2 300 meters in altitude, with a higher species richness in mid-altitude areas; among them, Sarcandra glabra (Thunb.) Nakai and Chloranthus henryi Hemsl.had a relatively wide distribution, often growing in valleys or on moist slopes at the foot of mountains, with significant differences in associated plants. The Chloranthaceae plants are often described as pungent, bitter, and warm, with slight toxicity, and their efficacy such as detoxifying and relieving pain, dispelling wind and removing dampness and promoting blood circulation and removing blood stasis are more common, commonly being used by ethnic minorities as a regular medication for treating rheumatism, swelling, pain, and traumatic injuries. The research provided a reference for the rational exploration and utilization of Chloranthaceae plant resources.
To explore the species diversity and change characteristics of understory vegetation of different forest types in Guangdong Province, the Eucalyptus urophylla forests of different ages (2.5, 4 and 7 years old) in Jiangmen, Pinus massoniana (4 years old) and Eucalyptus urophylla forests (4.5 years old), and subtropical evergreen broad-leaved forests in Gaoming, as well as primary forests in Nanling were surveyed. Vascular plant species and their numbers in each site, calculated α-diversity indices, and assessed species importance values were recorded. Medicinal plant species, proportions, life forms, and plant parts used were also analyzed. Results indicated that:(1)In Jiangmen’s Eucalyptus urophylla forests, species richness, Margalef’s richness index, Shannon-Wiener index, and Fisher’s α index initially decreased with forest age, then increased, while Pielou’s index and Simpson dominance index showed the opposite trend. Species richness, Margalef’s index, and Fisher’s α index were highest in Nanling’s primary forest, followed by Gaoming and Jiangmen forests.(2)Dicranopteris pedata was found in the understory dominant plants of different forest types in the three forest regions. The top five important understory plants were most dominant in Jiangmen’s Eucalyptus urophylla forests and least in Nanling’s primary forests, where plant distribution was more even.(3)Gaoming had the highest diversity of medicinal plant species among the forest types. From Eucalyptus urophylla forests in Jiangmen to primary forests in Nanling, the predominant life form of medicinal plants shifted from annual herbs to evergreen broad-leaved trees, and the plant parts used shifted from whole plants to leaves and roots.This study highlights the significant influence of forest age on understory plant diversity in Eucalyptus urophylla forests. As forest complexity increases, both the richness and evenness of understory plants and medicinal species distribution improve.
Based on the land use data of 2000, 2010 and 2020, the spatial-temporal evolution trend and spatial differentiation driving factors of landscape ecological risk in H city, a typical tourist city, were analyzed by using landscape ecological risk assessment model, land use transfer matrix, spatial autocorrelation analysis and geographical detector. The results showed that the area of forest land and water area in the study area increased significantly. The landscape ecological risk in the study area was generally at a low level and tended to improve. The ecological risk showed a weak spatial positive dependence in space, and the degree gradually weakened. The local autocorrelation was dominated by “low-low” aggregation type. The landscape ecological risk was mainly dominated by natural factors, and the spatial differentiation pattern was the result of multi-factor synergy. The research results provided a reference for regional ecological risk prevention and sustainable development.
Wheat basal rot is a disease that has occurred in wheat fields in recent years, particularly in corn-wheat continuous cropping fields, where it has shown a trend of increasing severity, causing a reduction in this plant yield and quality to some extent. To understand the occurrence characteristics of this disease and effectively control its spread and minimize damage, based on the wheat production practice in Lingbi County, Anhui Province, the occurrence, damage symptoms, disease characteristics, and influencing factors of this disease rot were analyzed through years of field investigations and a review of relevant literature. On this basis, the health cultivation as the basis were proposed, including the selection of resistant varieties, crop rotation, appropriate deep plowing, removal of straw from the field, precision seeding, and balanced fertilization. Additionally, seed treatment with chemicals during the wheat sowing period, the use of highly effective and low-toxicity pesticides for green control during the regreening stage, and an integrated control technology combining “one spray for three preventions” during the heading stage to manage wheat basal rot were recommended.
The species, host plants, damage parts,damage degree and community composition of leaf-eating pests of garden plants in Chongming District of Shanghai were investigated by detailed investigation method and spot investigation method. The results showed that there were 122 species in 24 families, including 21 families, 118 species and 4 dominant species of Lepidoptera, 3 families, 4 species and 2 dominant species of Hymenoptera. In terms of the degree of harm, there were 79 minor (+) species, accounting for 64.75%; 37 species with moderate (++) damage, accounting for 30.33%; 6 species with damage (+++), accounting for 4.92%. There were many species of leaf-eating pests in the study area, but their composition and structure were relatively simple, and the species that could cause serious damage were mainly concentrated in a few families. In view of the harmful characteristics of leaf-eating pests of garden plants in this area, the comprehensive control strategy of leaf-eating pests of garden plants was proposed. The control strategy of leaf-eating pests of garden plants should adhere to the principle of “prevention first and comprehensive control”, and improve the insect-resistant ability of garden plants based on the forest management measures of resistant tree species. At the same time, the occurrence law of pests should be mastered and appropriate comprehensive control measures should be taken in time, to reduce the scope of occurrence of pests, reduce the degree of harm of pests. This study provided a reference for the control of garden plant leaf-eating pests in this area and ecologically similar areas.
To further classify the processing performance of Cuibi No.1 tobacco, principal component analysis was conducted on 11 physical characteristic indicators such as single leaf weight and leaf density, as well as 5 chemical component indicators such as total plant alkaloids and total sugars, of 400 tobacco samples (produced in Fujian Province from 2020 to 2023). The comprehensive characteristics of tobacco leaves are reflected from 5 aspects: strength performance, chemical performance, size performance, tearing performance, and moisture absorption performance. A mathematical model for the comprehensive score of tobacco processing performance is established, which is Y=0.415y1+0.210y2+0.173y3+0.116y4+0.085y5. The comprehensive score of processing performance of the sample was calculated. Cluster analysis was conducted based on the comprehensive score, and 400 samples were divided into 4 categories. Discriminant analysis was conducted on 294 unclassified tobacco samples based on cluster analysis of classification numbers. The results of principal component analysis showed that for factors with eigenvalues ≥ 1, a total of 5 factors were extracted, and their cumulative variance contribution rate reached 78.643%. The clustering analysis results indicate that the comprehensive score of Class I ranges from -2.62 to -0.84, with average processing performance, mainly consisting of middle to lower tobacco leaves; The comprehensive score of Class II ranges from 1.24 to 3.07, indicating strong processing performance, mainly consisting of upper tobacco leaves; The comprehensive score of Class III was 0.24~1.23, indicating strong processing performance, mainly consisting of middle to upper tobacco leaves; The comprehensive score of Class IV was -0.83~0.23, with moderate processing performance, mainly for central tobacco leaves. The discriminant analysis results showed that the comprehensive score range of processing performance for each category basically overlapped with the clustering analysis results. The initial grouping was discriminated and cross validated, with an initial grouping accuracy rate of 94.3% and a cross validation grouping accuracy rate of 91.3%. This study provided theoretical and data support for the processing and re roasting of Cuibi No.1 tobacco leaves.
Geographic Information System (GIS) technology plays an important role in modern forestry,The forestry construction practice was combined, the application of this technology in mordren forestry were summarized and analyzed. Its applications cover multiple aspects such as forest resource inventory and information management, forestry mapping, remote sensing image processing, forest logging design, afforestation planning and design, as well as forest fire and pest and diseases monitoring. In terms of forestry mapping, GIS technology has improved the accuracy and efficiency of mapping, providing strong support for forestry management. In addition, GIS technology also has functions such as data and image processing, providing important reference for forest logging and afforestation design. GIS technology also plays an irreplaceable role in forest protection and monitoring, especially in forest fire and pest monitoring, which can timely and accurately identify problems and take corresponding measures. In short, GIS technology has been widely applied in forestry production, providing scientific decision-making basis for forestry workers and promoting the development of modern forestry. With the continuous advancement of science and technology, GIS technology will play a more important role in forestry production.
To reduce the impact of lightning strikes on grain depots and ensure food safety, based on field investigations, combined with weather conditions and lightning positioning data, the lightning identification process of 2 grain depot disaster events were elaborated, the causes of grain depot lightning accidents was analyzed. The targeted lightning protection measures and suggestions were proposed, and comprehensive measures were adopted from both technical and management perspectives for protection. At the technical level, included improving direct lightning protection devices, strengthening the design and installation of comprehensive grounding systems, installing multi-level surge rotective device, installing lightning warning systems or lightning online monitoring systems, and standardizing line layout; At the management level, included strengthening awareness of lightning protection, carring out popularization and publicity of lightning safety knowledge, and enhancing insurance compensation. Provided references for lightning disaster prevention work in grain depots.
The necessity of applying agricultural education in Landscape Architecture major education was analyzed from 3 aspects: integrating agricultural education with practice, leading the hot topics of natural education, and cultivating agricultural professionals. Taking the course of Serve the Social Practice of Agriculture, Rural Areas, and Farmers as the research object, its teaching status were analyzed from 3 aspects: research depth, innovation ability, and practical reports. In teaching practice, the “1+4+N” (1 main line, 4 directions, and N ideological and political elements) education model had been proposed, with a focus on in-depth research on 4 directions: agricultural education, natural education, base practice, and evaluation system. This model covered the specific implementation path of course design and practical teaching, as well as the challenges and solutions they face. To provide references for the teaching reform of Landscape architecture major, better meet the requirements of social development for agricultural professionals talents.
The current teaching situation of Food Additives course was analyzed from 3 aspects: teaching methods, ideological and political elements, and assessment and evaluation, and the blended teaching reform practice was carried out based on the Chaoxing Learning Platform. Firstly, a teaching model that combined online and offline was adopted, which effectively stimulated students’ interest and initiative in learning through chapter guidance, pre-class task assignment, classroom knowledge expansion and discussion, as well as online exercise release and refinement. Secondly, the ideological and political elements were explored of the curriculum, and achieved the ideological and political goals of the curriculum through education and entertainment. Finally, an achievement evaluation system was adopted, focusing on the output of results. Practice had shown that under this teaching model, the teaching effectiveness and overall evaluation score of the course had been significantly improved. Provided references for the reform and innovation of the teaching system of Food Quality and Safety major courses.
Taking the Plant Nutrition Research Methods course in applied undergraduate colleges as the research object, based on the OBE concept, the teaching reform of this course was explored. The current situation of this course teaching was analyzed from 4 aspects: teaching objectives, teaching methods, teaching resources, and assessment and evaluation. The specific reform path including clarifying teaching objectives, optimizing teaching methods, enriching teaching resources, and improving assessment methods. From the perspective of the practical effectiveness. This teaching reform according to students’aptitude had helped them achieve self-development; Improved the attractiveness and infectiousness of teaching, with more students participating in classroom teaching, resulting in significant improvements in teaching efficiency and effectiveness. To provide references for improving the teaching quality of this course and cultivating applied talents with good professional qualities and skills.
The current situation of Animal Immunology experimental course teaching was analyzed from 3 aspects of experimental teaching content, teaching methods, and assessment and evaluation, and the teaching reform practice guided by application was carrired out. In terms of teaching content, a Animal Immunology experimental teaching guide book was designed by self, combined with case studies to design experimental teaching content and hours, and strengthen the cultivation of students’data analysis and application abilities; In terms of teaching methods, confirmatory and repeated experiments had been reduced, utilized online teaching resources to meet students’ needs; In terms of assessment and evaluation, comprehensively evaluated the effectiveness of experimental teaching. The results indicated that students’ employment competitiveness had been significantly enhanced in this teaching model, and the practical teaching had achieved significant results, provided references for the innovation and optimization of talent training models in Animal Medicine major.
To cultivate new and high-quality innovation comprehensive talents and expand the direction of forest germplasm innovation, under the background of “new forestry science”, the teaching status of Forestry major non breeding Forest Tree Genetics and Breeding course was explored in terms of student professional foundation, textbook selection, teaching content, and assessment methods. Based on the characteristics of the Forest Conservation Science major, would put into practice the teaching reform of this course, including consolidating students’ professional knowledge foundation, selecting diversified textbooks, adjusting teaching content accordingly, and transforming assessment and evaluation methods. To enhance teaching effectiveness and provide references for the teaching reform of this course in non breeding Forestry majors.
Under the background of the construction of new agricultural science, based on the demand for talent cultivation in agricultural science majors in agricultural and forestry universities, the current teaching status of Inorganic and Analytical Chemistry course was analyzed. Based on the OBE concept and student-centered approach, research was conducted on the teaching reform path of this course, including optimizing teaching content, adopting blended learning model, exploring ideological and political elements, and optimizing the assessment and evaluation system. The results indicated that the teaching reform effectively enhanced students’ ability to solve practical problems in agricultural life and production. This provided a reference for the teaching reform of similar courses and the cultivation of compound applied talents under the background of new agricultural science.
Vigorously developing agricultural science and technology and promoting the transformation of agricultural-related patents achievements are one of the important means to promote the agricultural technological progress. In this paper, the current development status of agricultural-related patents were amalyzed and discussed form the definition and classification of agriculture-related patents, the role of agriculture-related patents in the development of agricultural science and technology, the challenges faced in the transformation of agriculture-related patents, and the relationship between agriculture-related patents and the progress of agricultural science and technology. At present, agriculture-related patents need to be further deepened in terms of patent application and approval process, patent innovation drive and protection, patent introduction and commercialization cooperation, and patent technology transfer and popularization. Regarding this, it was proposed to increase support for agriculture-related patents, strengthen the implementation and protection of agriculture-related patents, and promote the commercialization cooperation of agriculture-related patents, and improve the transformation and popularization of agriculture-related patent technology and other strategies. This research provided references for promoting the transformation of agriculture-related patent achievements and the development of agricultural science and technology.
The practical application of smart agricultural technologies was explored in agricultural planting, production management, and other aspects in agricultural production. The effectiveness of the development of smart agriculture with Yunnan Plateau characteristics were analyzed, including the gradual elongation of the agricultural industry chain, significant effects of modular management, and outstanding achievements in independent innovation. The areas that need further improvement was explored in infrastructure construction, key technology research and development, and professional talent reserve for the development of smart agriculture. Taking tobacco, flowers, coffee, tea, and seed industries as research objects, the development strategies of key industries were analyzed in high-altitude smart agriculture, including the application of Internet of Things technology to develop the tobacco industry, the application of industrial Internet of Things technology to develop the flower industry, the construction of a traceable system to develop the tea and coffee industries, and the rational utilization and protection of seed industry resources. This article provided references for promoting the transformation, upgrading, and industrialization development of plateau characteristic agriculture, and promoting the revitalization of rural industries.
