Results 101 to 110 of about 1,857,802 (193)
本发明涉及生物能源领域,具体地说是一种生产生物油脂和生物柴油的方法,以海洋滩涂植物大米草为原料,采用酵母工程菌将大米草分步糖化发酵生产生物油脂和生物柴油。本发明是一种由海洋滩涂植物大米草经酸水解产糖后利用微生物中的酵母工程菌发酵转化为油脂或柴油的新工艺,该工艺产油率高、转化快,在变废为宝和环境保护等方面具有广阔的应用前景 ...
杨庆利 +6 more
core
Abstract Human development is a driver of global change and a major threat to biodiversity. Protected areas maintain and support biodiversity, but outside stressors, such as climate change and land use change, can negatively influence natural resources within protected areas.
Leah J. Rudge +2 more
wiley +1 more source
The mechanism underlying the membrane-deformation property of MinE
[[sponsorship]]生物化學研究所[[note]]已出版;有審查制度 ...
Lin, Ti-Yu;Hsieh, Cheng-Wei;Lai, Hsin-Mei;Lin, Chu-Chi;Shih, Yu-Ling
core
Abstract Achieving global conservation policy goals requires the ability to set and measure progress toward science‐based targets for biodiversity. The species threat abatement and restoration (STAR) metric was developed to enable actors to set science‐based targets for species.
Louise Mair +17 more
wiley +1 more source
本文论述了固定化微生物、遗传工程等生物技术在污水处理中的应用、发展及需开发的课题。强化生物处理废水的关键在于使生物反应器内具有高效、高浓度的微生物。固定化技术为提高微生物浓度开辟了一个新途径;遗传工程为组建、筛选、培养高效的优势菌种提供了先进的科学手段;微生物的资源化,是“化废为宝”、综合利用、提高经济效益的有效措施;进一步完善组合现有生物处理法,可使之朝着高效、快速和多功能的方向发展。
汪群慧, 陈乃霞
doaj
本发明涉及用于水产养殖动物的微生物制剂。以红假单胞菌CCTCC_M96018菌株和溶解杆菌CCTCC_M96020菌株培养制备适宜淡水和半咸水养殖动物的湖光制剂,以着色菌属CCTCC_M96017菌株和屈挠杆菌CCTCC_M96019菌株培养制备适宜半咸水和海水养殖动物的海光制剂。该制剂营养丰富,生长快,抗逆性强,在室内自然光贮存,有效期长达半年,对促进各类水产养殖动物生长,发育,提高成活率和产量,改善水质 ...
李虹, 李勤生, 闵红涛, 王业勤
core
Harnessing social media data to track species range shifts
Abstract Biodiversity monitoring programs and citizen science data remain heavily biased toward the Global North. Especially in megadiverse countries with limited biodiversity records, incorporating social media data can help address existing data gaps.
Shawan Chowdhury +15 more
wiley +1 more source
动物教学干式标本制作新工艺,集中强化了学生的动物解剖学基础知识和实践操作能力,能适应广大师生对动物标本制作技术的喜爱与需求,巩固教学内容,增强学生动手能力,丰富业余生活,提高教学质量 ...
王荣林
doaj
[[sponsorship]]生物化學研究所[[note]]已出版;有審查制度 ...
Pao, Yiwen;Huang, Kai-Fa;Lin, Yuan-Chi;Wang, Andrew HJ;Shih, Yu-Ling
core
Biodiversity‐driven spatial conservation planning to delineate temporally stable regions
Abstract The accelerating loss of biodiversity underscores the critical need for effective conservation strategies, particularly in the face of climate change and anthropogenic pressures. We devised a conservation planning framework that adopts a temporal stacking approach to species distribution models and landscape connectivity analyses. These models
Mattia Iannella +5 more
wiley +1 more source

