城市农业公园的内涵、模式及路径

城市农业公园是一种将城市元素与农业元素有机结合的融入城乡一体化发展理念的集生态、绿色、人文、产业等特征于一体的以农业为主题的城市公园。阐述了城市农业公园的内涵特征及其功能价值和城市农业公园的发展模式及其路径选择，并在此基础上，结合铜仁市的山水自然特征及其农业产业发展特色，从经验借鉴和实践研究层面对铜仁市城市农业公园的发展进行战略思考和总体设计。以铜仁市郊区的和平乡、坝黄镇、挞扒洞村以及松桃正大乡为例对以铜仁市城市农业公园建设为切入点打造铜仁生态旅游城市提出了具体的发展构想。     

“互联网+农业”模式下食用菌的营销策略

在"互联网+农业"融合发展背景下,食用菌企业需要借助互联网,构建市场主导、数字驱动的全新营销战略,助力产品营销。以"互联网+农业"模式为研究视角,分析食用菌产品营销现状,提出发挥技术优势、挖掘用户需求和建设优质平台等营销建议,以助力食用菌产品市场营销与效益转化。     

早熟薄皮甜瓜新品种香瑞1号的选育

香瑞1号是黑龙江省青冈县瑞雪农业有限责任公司以NY-99为父本、RX-99为母本选育的早熟薄皮甜瓜新品种.全生育期68d,果实发育期27 d.子、孙蔓均可结瓜.果实长圆形,果皮黄白色,果实大小整齐,外形美观,不裂果;中心可溶性固形物14%,品质优.单果质量500～600g,667m2产量3 500 kg左右.田间表现对...     

秋种马铃薯高产栽培技术

经过多年多点示范,总结出高山秋种马铃薯高产栽培技术。即秋种马铃薯以选择排灌水方便的沙壤土或黄壤土为宜,忌与茄科作物连作;8月上中旬,采用单垄双行双三角形播种,密度5.25万~6.00万株/hm2;合理施肥,注意防治病虫害。     

厦门同安造水村乡村旅游开发研究

结合生态农村园发展的要求及对同安造水村的综合考察，从多角度来分析市场形势和造水村的人文、地理等各条件的综合状况，为造水村观光农业旅游资源的合理开发提供较为科学的理论依据，同时，为同安区汀溪镇发展成为厦门市的后花园提供借鉴。     

Organic farming fosters agroecosystem functioning in Argentinian temperate soils: Evidence from litter decomposition and soil fauna

Benefits of organic farming on soil fauna have been widely observed and this has led to consider organic farming as a potential approach to reduce the environmental impact of conventional agriculture. However, there is still little evidence from field conditions about direct benefits of organic agriculture on soil ecosystem functioning. Hence, the aims of this study were to compare the effect of organic farming versus conventional farming on litter decomposition and to study how this process is affected by soil meso- and macrofauna abundances. Systems studied were: (1) organic farming with conventional tillage (ORG), (2) conventional farming with conventional tillage (CT), (3) conventional farming under no-tillage (NT), and (4) natural grassland as control system (GR). Decomposition was determined under field conditions by measuring weight loss in litterbags. Soil meso- and macrofauna contribution on decomposition was evaluated both by different mesh sizes and by assessing their abundances in the soil. Litter decomposition was always significantly higher after 9 and 12 months in ORG than in CT and NT (from 2 to 5 times in average), regardless decomposer community composition and litter type. Besides, mesofauna, macrofauna and earthworm abundances were significantly higher in ORG than in NT and CT (from 1.6 to 3.8, 1.7 to 2.3 and 16 to 25 times in average, respectively for each group). These results are especially relevant firstly because the positive effect of ORG in a key soil process has been proved under field conditions, being the first direct evidence that organic farming enhances the decomposition process. And secondly because the extensive organic system analyzed here did not include several practices which have been recognized as particularly positive for soil biota (e.g. manure use, low tillage intensity and high crop diversity). So, this research suggests that even when those practices are not applied, the non-use of agrochemicals is enough to produce positive changes in soil fauna and so in decomposition dynamics. Therefore, the adoption of organic system in an extensive way can also be suggested to farmers in order to improve ecosystem functioning and consequently to achieve better soil conditions for crop production.     

Decreasing of methanogenic activity in paddy fields via lowering ponding water temperature: A modeling investigation

Methane (CH₄) is a potent greenhouse gas and the huge CH₄ fluxes emitted from paddy fields can prejudice the eco-compatibility of rice cultivation. CH₄ production in submerged rice crops is known to be highly influenced by water temperature. Hence, lowering ponding water temperature (LPWT) could be an option to mitigate CH₄ emissions from paddy environments when it is possible either to irrigate with slightly colder water or to increase ponding water depth. However, paddy soil is a complex environment in which many processes are simultaneously influenced by temperature, leading to a difficult prediction of LPWT effects. For this reason, LPWT efficiency is here theoretically investigated with a one-dimensional process-based model that simulates the vertical and temporal dynamics of water temperature in soil and the fate of chemical compounds that influence CH₄ emissions. The model is validated with literature measured data of CH₄ emissions from a paddy field under time-variable temperature regime. Based on modeling results, LPWT appears promising since the simulated reduction of CH₄ emissions reaches about −12% and −49% for an LPWT equal to −5 °C during the ripening stage only (last 30 days of growing season, when rice is less sensitive to temperature variations) and −2 °C over the whole growing season, respectively. LPWT affects CH₄ emissions either directly (decreasing methanogenic activity), indirectly (decreasing activity of bacteria using alternative electron acceptors), or both. The encouraging results provide the theoretical ground for further laboratory and field studies aimed to investigate the LPWT feasibility in paddy environments.     

美国农业保护性耕作技术的启示

为了学习与引进先进的保护性耕作技术,阐述了美国保护性耕作的起源,说明了传统耕作给农业生产带来的毁灭性的打击,并通过以免耕为主的保护性耕作的论述,进一步说明了黑龙江省耕作制度改革的必要性。同时通过美国先进耕作制度的论述,提出了黑龙江省发展保护性耕作制度的必要性和具体措施。     

农村中小学现代远程教育资源利用的问题与策略

随着农村中小学现代远程教育工程的逐步实施和深入，农村中小学在利用农村远程教育资源（以下简称农远资源）的过程中也暴露出越来越多的问题。针对农远资源在农村中小学教育中利用率低的问题，在做了相关调查的基础上，分析了农村中小学农远资源利用中存在的弊端，为提高农远资源的利用率提出了相关的解决策略。