平安文明校园建设之我见

随着我院招生人数的逐年增多,以及学生学习压力和就业难度的增大等,我院的平安文明校园建设工程迎来了新的挑战.本文从队伍建设、机制建立、科学预案、科技保障、安全教育及心理健康教育六个方面提出了平安校园建设的对策,并提出了从校风建设、课堂教学、思想政治教育、学生团体组织、硬件建设、活动开展等方面加强文明校园建设的设想.     

原位铁氧化物载铁活性炭的制备及其对水中As(Ⅲ)的去除性能

针对水中三价砷As(Ⅲ)毒害大、难去除的问题,本研究采用FeSO4/K2FeO4组合处理方式以恒温浸润法对活性炭进行改性,制备获得原位铁氧化物载铁活性炭(AFPAC),利用负载的铁氧化物的吸附性能,耦合活性炭的吸附和有效的固液分离功能,实现了As(Ⅲ)的高效去除.结果表明,当AFPAC投加量1g·L-1时,对初始质量浓...     

长江宜宾江段渔业资源现状调查

于2011年5～7月和10月在长江干流宜宾江段进行了鱼类资源调查。共采集到鱼类62种（亚种）,隶属于4目10科40属,其中19种为长江上游特有鱼类。圆口铜鱼（Coreius guichenoti）、瓦氏黄颡鱼（Pelteobagrus vachelli）、鲫（Carassius auratus）、长薄鳅（Leptobotia elongate）、中华沙鳅（Botia superciliaris）、南方鲇（Silurus meridionalis）、铜鱼（Coreius heterodon）、鲢（Hypophthalmichthys molitrix）、鲇（Silurus asotus）等为宜宾江段优势种。对主要经济种的体长体重数据进行了分析,结果表明渔获规格较历史数据下降明显,单船日捕捞量亦有减少,长江宜宾段的渔业资源呈现衰退的趋势。作为向家坝蓄水前最后一次对宜宾江段的鱼类群落结构进行分析,研究结果可以为分析向家坝水库蓄水对长江上游鱼类的影响提供数据参考     

江汉平原稻田冠层CO2通量变化特征及其影响因素分析

二氧化碳（CO2）、甲烷（CH4）、氧化亚氮（N2O）被认为是最重要的温室气体,在气候变化中扮演着重要角色,实地测定稻田生态系统CO2通量是农业源温室气体监测与控制技术研究的基本内容。采用涡度相关法对江汉平原稻田生态系统进行了通量观测,并对水稻不同生长阶段冠层CO2通量、潜热、显热通量变化特征及其影响因素进行了分析。结果表明：水稻各生育期冠层CO2、潜热、显热通量日变化均表现出明显的单峰特征,但幅度不同,这与太阳总辐射的日变化及下垫面作物叶面积指数大小关系密切。稻田系统作物呼吸与土壤呼吸排放CO2,排放通量一方面与温度的变化有关,另一方面也受灌溉、作物生长状况的影响;稻田光合作用吸收同化大气CO2,吸收通量与作物群体叶面积指数大小、光合有效辐射强度有关。不同生长期冠层CO2通量与温度因子（气温、5cm土层温度）、光辐射强度因子（时光合有效辐射曝辐量）的相关性均达到极显著水平（P<0.01）,其中,分蘖-灌浆乳熟期CO2净通量对时光合有效辐射曝辐量响应的灵敏度较大,可以通过直角双曲线模型来拟合评估CO2净通量     

The role of the clean development mechanism in achieving China��s goal of a resource-efficient and environmentally friendly society

This paper examines the impact of the clean development mechanism (CDM) on China??s progress in building a resource-efficient and environmentally friendly society, referred to as a dual-goal society. It presents China??s CDM activities from the perspective of policy directions, administrative arrangements and capacity building as well as outlines the regional trends and distribution of CDM projects across China??s 30 provinces. Based on regression analysis of 2006?C2009 panel data, the research was able to provide estimates at provincial level of the impacts of CDM activities on China??s CO₂ emission intensity, SO₂ emission intensity and industrial dust emission intensity. The study concludes that the active CDM projects are mainly located in the less-developed central and west China where they have provided increased opportunities for sustainable development. Furthermore, the successful implementation of CDM projects across the country has significantly decreased the emission intensity of CO₂, SO₂ and industrial dust, which means that these activities have enhanced China??s ability to build the desired dual-goal society.     

China’s Import of Wastes and Its Implications

Abstract

The trade of wastes in the world has been increasing and China has become the largest importer of wastes. This paper examines the import trend of different wastes and finds out that the total import volume to China approved by the Chinese government keeps increasing and the illegal trade can not be banned despite repeated prohibitions; therefore, China is not only “a world factory”, but actually “a global garbage dump”. In order to well understand the implications of wastes import, this paper further analyzes the resource and environmental effects and risks of different wastes imports as well as the strong driving force of wastes imports. Based on these detailed analysis and solid data, policy recommendations are put forward to reduce the demand for raw materials, to further strengthen the inspection of and supervision over the international trade of the wastes that can be used as raw materials by using the life cycle analysis and risk analysis, to improve the environmental standards and strengthen the disposal capacity, to re-export the raw materials produced from the imported wastes, to develop the long-term planning for the import of wastes and to promote international cooperation.     

Impacts of the Rising Opportunity Cost of Farm Labor on Agricultural Land Use Structure: Theory and Empirical Evidences

Abstract

Nowadays the rising of opportunity cost of farm labor comes to the forefront of attention in China. In order to understand its impact on agricultural land-use structure, a theoretical framework of household economics is formulated drawn on Low’s model. Under the theoretical framework, the impact of the rising opportunity cost of on-farm on cropping structure is deduced in theory. And then, using statistic and survey data, taking mountain area of southern Ningxia as an example, the theoretical assumes are verified. The results show that the rise of opportunity cost of farm labor leads to less diversified cropping structure.     

南京冬季典型霾天气过程多元对比分析

选取2017～2020南京地区冬季3个典型霾天气过程,综合分析了霾天气过程中污染物、气象要素以及边界层条件等影响机制与特征变化.结果表明,3次过程中,AQI指数峰值分别为304(严重污染)、227(重度污染)与176(中度污染),且与PM2.5、PM10浓度变化基本趋于一致,PM25与PM10比值基本都大于0.7;污染...     

稻田土壤砷、镉复合污染阻控技术研究进展

砷（As）和镉（Cd）是稻田土壤中最常见的有毒有害重金属元素,且易从土壤迁移到水稻籽粒中.目前,我国稻田土壤中As和Cd及其复合污染现象普遍,对粮食安全和人体健康均构成了严重威胁.As和Cd在土壤中的环境行为相反,对As-Cd复合污染的同步治理是当前水稻安全生产的关键技术难点.通过综述近年来同步阻控水稻对As和Cd吸收以及转运的若干实用技术,包括水分管理、钝化技术、淋洗技术、电动修复技术、植物修复技术、低累积水稻品种的选取以及叶面阻控技术,归纳并分析了各种技术的处理效果、作用机制和制约因素,提出了主要阻控技术的发展方向,指出构建区域高适配性综合技术模式的重要性,以期为稻田As-Cd复合污染治理和水稻安全生产提供参考.     

Type 0092丝状菌污泥微膨胀在短程硝化中的实现

利用Type 0092丝状菌不易引发污泥恶性膨胀的特点,本实验采用实际生活污水,以SBR反应器接种短程硝化污泥,考察了短程硝化状态下启动Type 0092丝状菌污泥微膨胀的特性,研究了系统启动与维持期间的污泥沉降性能、亚硝酸盐积累率(NAR)、污染物去除特性以及污泥菌群结构变化情况.结果表明控制DO为0. 3～0. 8 mg·L~(-1),F/M(以COD/MLSS计)=0. 24 kg·(kg·d)~(-1),按照交替缺氧/好氧模式运行(单周期3次,缺氧∶好氧=20 min∶60 min),能够启动Type 0092丝状菌污泥微膨胀与短程硝化耦合,系统SVI值维持在180 m L·g~(-1)左右,NAR一直维持在99%左右,COD和TN去除率能够分别提高约13%和5%,相较于传统全程硝化非微膨胀状态曝气量能节省约62. 5%.当交替缺氧/好氧模式变为单周期交替6次,缺氧∶好氧=10 min∶30 min,亚硝酸盐氧化菌(NOB)的活性会恢复,使短程硝化被破坏;低溶解氧、交替缺氧/好氧、低负荷是实现Type 0092丝状菌污泥微膨胀的关键因素,当负荷(以COD/MLSS计)大于0. 25 kg·(kg·d)~(-1)时,仅靠低溶解氧和间歇曝气无法维持污泥微膨胀状态.