Subjects: Other Disciplines >> Synthetic discipline submitted time 2023-03-28 Cooperative journals: 《中国科学院院刊》
Abstract: Strengthening the research in biology aimed at national strategic needs and major scientific frontier issues is conducive to giving full play to the strategic supporting role of biological research for national economic development and the promotion of international competitiveness. This article combs the basic characteristics and development trend of biology, summarizes the practical experience of international biological research funding, and analyzes the outstanding problems in biological research in China, such as incomplete layout, lack of sustainable and stable support, and insufficient funding for top talents and teams. By referring to the international practical experience, it puts forward policy suggestions to improve the layout of biological research field, strengthen the level of biological research funding, build a biology talent base, strengthen the funding support for basic research talents, and establish a diversified scientific research evaluation and assessment mechanism.
Subjects: Biology >> Zoology submitted time 2018-12-25 Cooperative journals: 《动物营养学报》
Abstract:本试验旨在研究不同钙水平饲粮添加维生素D3对产蛋后期蛋鸡生产性能、蛋品质、胫骨质量和血浆钙磷代谢的影响。采用3×3因子设计,即3个钙水平(3.0%、3.5%和4.0%)和3个维生素D3添加水平(0、2 500和5 000 IU/kg)。选取60周龄罗曼粉壳蛋鸡810只,随机分为9个组,每组6个重复,每个重复15只鸡。试验采用玉米–豆粕型饲粮,试验预试期1周,正试期6周。结果表明:1)与未添加维生素D3组相比,添加维生素D3组蛋鸡平均日采食量和产蛋率极显著升高(P0.05)。2)与未添加维生素D3组相比,添加维生素D3组蛋壳强度、蛋壳重和蛋壳比重极显著升高(P0.05)。3)不同钙水平饲粮添加维生素D3对蛋鸡胫骨强度有极显著影响(P0.05),而饲粮钙水平为4.0%时,胫骨强度显著高于饲粮钙水平为3.0%和3.5%时(P0.05),与3.0%钙组相比,4.0%钙组血浆碱性磷酸酶显著降低(P<0.05)。结果显示,产蛋后期适当提高饲粮钙水平有利于蛋鸡生产性能,但维生素D3缺乏会降低生产性能,甚至引起停产;饲粮添加2 500 IU/kg维生素D3既能满足产蛋后期蛋鸡对维生素D3的需求,同时又不造成资源的浪费,节约成本。
Subjects: Other Disciplines >> Synthetic discipline submitted time 2018-05-10 Cooperative journals: 《中国科学院院刊》
Abstract:
Subjects: Other Disciplines >> Synthetic discipline submitted time 2017-08-21 Cooperative journals: 《中国科学院院刊》
Abstract:作物病虫害是威胁全世界农业生产的重大自然灾害。目前,病虫害防治的核心思想仍然是简单杀灭,主要依靠以病虫微生物的基础代谢、生理生化系统和神经受体为靶标的化学农药,过程中易导致人畜中毒、农产品污染和生态环境破坏等一系列严重的问题。下一代病虫害防治学术思想的重大突破将是对作物-昆虫-病原微生物生物间信息流及行为进行操纵。在基础研究方面,“生物间信息的识别、解码与操纵”也是现代生命科学的前沿与热点学科——生物间相互作用的分子机理一旦被阐明,往往带动通用生物技术的发展突破。例如RNA干扰(RNAi)现象、植物转化技术和TALEN基因组编辑技术等科学发现和技术进步,已经为整个生命科学领域作出了重大贡献。中科院“作物病虫害的导向性防控——生物间信息流与行为操纵”战略性先导科技专项(B类)集合了各学科的优势力量,系统地分析在作物重大病虫害发生过程中种间信息识别、解码、传递和控制的过程,从中解析关键可操纵节点,发展新一代病虫害田间行为操纵的新策略与新技术。该专项目前已经取得了系列重大研究成果,为竞争国际科学前沿地位、保障我国粮食生产安全作出了基础性、前瞻性的贡献。
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