伏牛山生态资源开发利用与发展思考——伏牛山生态资源保护和利用对策

伏牛山属秦岭山脉的支脉,位于北亚热带和暖温带的气候分区线,是物种南北过渡、东西交汇的“陆桥”,特殊的地理位置和复杂多样的生态环境条件,使本区保存了丰富的生物多样性资源。通过对伏牛山区生态资源保护和利用现状的分析,找出薄弱环节,提出发展利用建议,以期为伏牛山生态资源的合理利用提供理论依据。     

油菜高亚麻酸育种探析

为促进通过提高油菜种子亚麻酸含量途径增加中国人群亚麻酸的摄入量,提高健康水平的工作进程。结合文献资料,在剖析开展油菜高亚麻酸育种的意义、可行性、难点及可利用的有利条件的基础上,提出油菜高亚麻酸育种策略与技术途径。在工作实践中,陕西省杂交油菜研究中心研究团队创建并完善"油菜高亚麻酸种质的筛选方法",利用该方法开展油菜高亚麻酸种质资源筛选和高亚麻酸育种取得良好成效:油菜种质资源的整体亚麻酸含量、具有较高亚麻酸含量种质的百分比率、亚麻酸含量最高值、亚麻酸含量15%的种质数量均明显增加;获得一批亚麻酸含量大于15%(最高含量达21%)的甘蓝型油菜非转基因种质,育成高亚麻酸的不育系和恢复系;甘蓝型油菜高亚麻酸杂交种‘秦杂油7号’通过国家品种登记;2个亚麻酸含量15%左右的杂交种正在申请品种登记。发现在A02、C02及A06染色体上存在多个与亚麻酸显著关联SNP位点。提出开展基础机理研究和分子设计育种创新体系建设,开展高亚麻酸种质资源创新、综合评价和利用研究,构建高亚麻酸育种体系,规化高效保优栽培技术路线,开展油菜籽加工技术、抗氧化研究,构建标准体系等6方面建议。     

农业大数据的发展现状与发展趋势

介绍了农业大数据的概念和发展现状,阐述了农业大数据理论在农业中的主要应用,分析了农业大数据发展过程中存在的问题,并预测了农业大数据的发展趋势。     

京郊休闲型家庭农场发展创新策略及保障机制

北京郊区具备发展休闲型家庭农场的多种条件,可以通过理性规划,准确定位;注入农耕文化,融于体验;塑造品牌,注重营销的创新发展策略来展开。在此基础上,政府应通过加强引导,提供各种政策保障;调整发展思路,促进农场区域化发展;建立休闲型农场专门人才的培养机制,提升农场主文化与经营水平等一系列保障机制来实现。     

供应链金融视角下木材加工产业的发展路径优化策略

木材加工企业的发展离不开金融机构的有效支持,当这种支持上升到一定高度时,整个木材加工产业也会处于金融服务机构的供应链管理范畴。供应链金融管理能力的强弱,将直接影响到木材加工企业的生产经营。介绍了供应链金融内容与特征,探讨了供应链金融视角下木材加工产业应规避的问题,在此基础上,提出了供应链金融视角下木材加工产业发展路径优化策略。     

春季低温对小麦颖果发育的影响

为了探明春季低温（倒春寒）导致小麦减产的细胞学机理，以扬麦15为材料，在小麦幼穗处于雌雄蕊分化期至药隔期之间时，设置-3 ℃低温处理，通过树脂半薄切片对颖果不同发育时期的形态结构进行观察。结果表明：（1）在颖果发育早期，低温促进了颖果的长度生长，抑制了宽度生长；与对照相比，低温处理组小麦颖果发育进程缩短；（2）低温处理组颖果果皮发育早，中果皮降解速度快；（3）低温处理增加了胚乳淀粉体的积累量，降低了蛋白体的积累量，发育后期胚乳充实度显著低于对照组；（4）与对照相比，低温处理后颖果韧皮部面积和珠心突起传递细胞面积增大。以上结果表明，春季低温处理更有利于养分运输组织的发育，使得灌浆时间缩短，最终导致淀粉积累量增加及颖果早熟。     

Agriculture Green Development: a model for China and the world

Realizing sustainable development has become a global priority. This holds, in particular, for agriculture. Recently, the United Nations launched the Sustainable Development Goals (SDGs), and the Nineteenth National People’s Congress has delivered a national strategy for sustainable development in China—realizing green development. The overall objective of Agriculture Green Development (AGD) is to coordinate “green” with “development” to realize the transformation of current agriculture with high resource consumption and high environmental costs into a green agriculture and countryside with high productivity, high resource use efficiency and low environmental impact. This is a formidable task, requiring joint efforts of government, farmers, industry, educators and researchers. The innovative concept for AGD will focus on reconstructing the whole crop-animal production and food production-consumption system, with the emphasis on high thresholds for environmental standards and food quality as well as enhanced human well-being. This paper addresses the significance, challenges, framework, pathways and potential solutions for realizing AGD in China, and highlights the potential changes that will lead to a more sustainable agriculture in the future. Proposals include interdisciplinary innovations, whole food chain improvement and regional solutions. The implementation of AGD in China will provide important implications for the countries in developmental transition, and contribute to global sustainable development.     

Characterization and bioactivities of young rice protein hydrolysates

Immature rice was reported to contain higher quantities of bioactive compounds than mature rice. Young rice protein is easy to digest and has hypoallergenic potential, with protein content of 7.2–11.5% compared to rice bran at 9.8%. Few studies have reported on bioactivities and characterization of young rice proteins and their hydrolysates. Bioactivities of native protein and protein hydrolysates of two rice varieties (white rice and colored rice) were characterized and investigated for four development stages (flowery, milky, dough, and mature). Degree of hydrolysis of young rice protein was considerably higher than at the mature stage. Highest DPPH and iron chelating activity were found in alcalase® protein hydrolysate during the flowery-to-milky stage. Iron chelating activity was constant in all development stages because of the low polar amino acid content in rice. The ACE activity of alcalase® protein hydrolysate was higher than native protein at the same development stage, as observed in the milky and dough stages. Inhibitory activity of young rice hydrolysate HepG2 cells was concentration-dependent and not correlated with protein molecular size.