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市场力量和价格风险
我们的目的是分析这些关于可再生能源价格暴露程度的选择如何影响投资完成后电力市场的表现。未来必须进行的大规模可再生能源投资使这个问题变得更加重要。我们的研究结果为如何以最低成本支持可再生能源部署的持续争论提供了关键见解。我们关注的是可再生能源定价方案如何影响企业对给定容量的竞标激励这一尚未得到充分探索的问题,这是电力市场表现的重要决定因素。这是分析长期变量(如进入、退出或新投资的容量和位置)的内生选择的必需的第一步。我们的贡献是捕捉价格暴露对市场力量的影响,这是一个与电力市场及其他领域相关的问题。我们提供了一个易于处理的模型和结构分析,比较了不同程度价格暴露下企业的市场行为。这种分析也适用于许多其他按顺序组织的市场(例如天然气、石油、排放许可、债券或股票等),在这些市场中,企业面临的价格风险程度取决于它们是签订的是短期合同还是长期合同。据我们所知,本文也是第一篇提供价格风险对市场力量的因果影响的文章,其中考虑到了抵消激励。
依托泊苷 1. 暴露数据
依托泊苷有 50 或 100 mg 液体胶囊和 20 mg/mL 注射液两种形式。明胶胶囊中还可能含有柠檬酸、明胶、甘油、氧化铁、对羟基苯甲酸酯(乙基和丙基)、聚乙二醇 400、山梨醇和二氧化钛。注射用依托泊苷浓缩液是药物在载体中的无菌非水溶液,载体可以是苯甲醇、柠檬酸、乙醇、聚乙二醇 300 或聚山梨醇酯 80。注射用浓缩液为澄清的黄色溶液,pH 值为 3-4。注射用依托泊苷磷酸盐是一种无菌、无热原的冻干粉,含有柠檬酸钠和葡聚糖 40;用注射用水将药物稀释至 1 mg/mL 浓度后,溶液的 pH 值为 2.9(Gennaro,1995 年;美国医院处方服务处,1997 年;加拿大药学协会,1997 年;英国医学协会/英国皇家药学协会,1998 年;Editions du Vidal,1998 年;Rote Liste Sekretariat,1998 年;Thomas,1998 年)。英国药典要求限制以下杂质:4′-羧基乙基亚木脂素 P、苦基乙基亚木脂素 P、α-乙基亚木脂素 P、木脂素 P 和 4′-去甲基表鬼臼毒素(英国药典委员会,1994 年)。
了解欧盟与中国的经济风险
经济更以工业为导向的成员国通常对中国进口的依赖程度更高。捷克共和国(捷克欧盟外进口总额的 33% 来自中国)、罗马尼亚、波兰、斯洛文尼亚、斯洛伐克和德国等成员国就是这种情况,凸显了中国作为欧盟工业投入来源国的重要作用。服务业导向更强的成员国(如比利时、荷兰、希腊)在直接进口方面对中国的依赖程度一般较低。一般而言,某些大型成员国对中国进口的依赖程度相对较高,也凸显了欧盟作为中国企业出口目的地的重要性。随着中国某些生产领域越来越难以(甚至不可能)进入美国或日本等某些市场,这一点可能变得更加重要。
Herbicide Strategy to Reduce Exposure of Federally Listed ...
1. Executive Summary When the Environmental Protection Agency (EPA or Agency) takes an action on a pesticide registration ( e.g., registers a pesticide or reevaluates it in registration review) under the Federal Insecticide, Fungicide, and Rodenticide Act (FIFRA), the Agency is responsible under the Endangered Species Act (ESA) to ensure that the action is not likely to jeopardize the continued existence of federally threatened or endangered (referred to as “listed”) species, or result in the destruction or adverse modification of their designated critical habitats. Chemical stressors, such as pesticides, are one of many factors that can contribute to population declines of listed species. Meeting this ESA responsibility is a formidable task, considering the tens of thousands of pesticide products and registration amendments for which EPA is required to review the potential effects for over 1,700 U.S. listed species. Given these challenges, in April 2022, EPA released a workplan (USEPA, 2022a) and an update to the workplan in November 2022 (USEPA, 2022b) that describe how it plans to meet its ESA obligations as part of pesticide registration processes under FIFRA. The update also describes strategies for identifying early mitigation measures to address potential population-level impacts to listed species across groups of chemicals ( e.g ., herbicides, rodenticides, insecticides) or in certain regions of the U.S. These strategies intend to more efficiently determine whether, how much, and where mitigations may be needed to protect listed species from many uses of conventional pesticides. This final Herbicide Strategy is another key step in meeting this goal. This Herbicide Strategy covers only conventional herbicides - an important, widely used tool for growers to prevent or eliminate weeds that compete with crops for light, moisture, and nutrients. EPA focused the strategy on agricultural uses in the lower 48 states because hundreds of millions of pounds of herbicides (and plant growth regulators) are applied each year (USEPA, 2017), which is substantially more than for non-agricultural uses and for other pesticide classes ( e.g. , insecticides, fungicides). In addition, there are hundreds of species listed by the U.S. Fish & Wildlife Service (FWS) 1 in the contiguous U.S. The mitigations identified in the strategy would address potential impacts to listed plants (terrestrial, wetland, and aquatic), which are the types of species likely to be most impacted by herbicides. By identifying mitigations to protect plants, listed animal species that depend on plants would also be protected. This includes animals that depend on plants for food and shelter (habitat). By identifying and defining mitigations for these listed plant and animal species, EPA will consider and apply this final Herbicide Strategy as appropriate in FIFRA actions, which should result in reductions of population-level impacts to over 900 listed species in the lower 48 states. The Herbicide Strategy is intended to create a consistent, reasonable, transparent, and understandable approach to assess potential impacts and identify mitigations to reduce potential population-level impacts to listed species from the use of agricultural herbicides. The strategy does not include ESA effects determinations, but instead is meant to identify proactive mitigations that can be applied in registration and registration review actions to reduce pesticide impacts to listed species. The strategy is intended to provide similar and consistent mitigations for herbicides with similar characteristics ( e.g. ,
接触人工智能和职业流动
• 两国受过大学教育的年轻人在职业发展过程中,最常从高曝光低互补性 (HELC) 职位转向 HEHC 职位 • 这一群体最有可能从工作机会的增长中受益,但其职业生涯也可能因工作机会的减少而受到最大干扰
血源性病原体暴露控制计划
以下定义主要来自附录 V 中列出的适用法规和法令,并进行了一些修改以反映 TWU 社区的需求并将学生纳入 ECP 提供的保护范围。生物医学废物 - 液态或半液态血液或其他潜在传染性物质;受污染物品,如果压缩会以液态或半液态释放血液或其他潜在传染性物质;沾有干血或其他潜在传染性物质并能够在处理过程中释放这些物质的物品;受污染的锐器;以及含有血液或其他潜在传染性物质的病理和微生物废物。符合上述定义的动物废物也被视为生物医学废物。
怀孕期间接触内分泌干扰化学物质
女性普遍接触来自食品接触材料和个人护理产品中的非持久性内分泌干扰化学物质 (EDC)。了解接触这些化学物质对女性怀孕和长期健康结果的影响是一个被忽视的关键研究领域。这篇简短的综述重点关注流行病学文献,探讨非持久性 EDC(包括邻苯二甲酸酯、对羟基苯甲酸酯、双酚和三氯生)与孕妇怀孕结果和女性长期健康结果之间的关系。我们关注这项研究的挑战,特别是评估非持久性 EDC 暴露、研究设计方面和统计方法。最后,我们回顾了与怀孕和女性健康有关的非持久性 EDC 研究的最佳实践。虽然有限,但我们发现一些证据表明接触非持久性 EDC 与怀孕健康有关。然而,这些研究的结果不一致,需要证实。最近的研究还提出,妊娠期间非持续性 EDC 暴露可能会对产后母体健康产生不利影响。迄今为止,仅进行了少数研究,且仅关注产后体重。需要在这一领域进行更多研究,以指导促进女性一生最佳健康的努力。生殖 (2021) 162 F169–F180
曝光指南(2023 年 5 月 19 日更新)
● 情感支持:Tang 咨询服务面向所有学生,电话为 510-642-9494(上午 8 点至下午 5 点),下午 5 点后为 855-817-5667。员工援助计划(面向教职员工的咨询)电话为 510-643-7754。● 基本需求:如需获取食物或必需品方面的帮助,请访问基本需求中心的网站 basicneeds.berkeley.edu,您可以在那里填写基本需求援助表。● 医疗问题:学生可以拨打 24 小时护士咨询热线 510-643-7197。教职员工请联系您的医疗保健提供者。● 大学村:如果您住在 UVA 并且需要隔离或食物支持,请致电前台 510-526-8505。
