基于时序InSAR的覆砂石尾矿坝形变演化研究

为解决目前采用在尾矿坝坝体及滩面覆盖砂石进行防尘治理与闭库，但传统监测手段难以实现坝体整体监测的问题，采用时序InSAR技术对2014年10月至2018年7月的Sentinel-1A影像进行处理，提取了对应时间段内卡房尾矿坝的形变信息，并结合实地调查及尾矿坝建设资料，研究了卡房尾矿坝的时序形变演化规律。结果表明:SBAS InSAR监测到坝体出现第1次异常形变加速运动时间与坝体开始铺设砂石工程的施工时间节点完全吻合，体现SBAS InSAR技术在受人为工程影响的坝体形变监测方面具有极高的敏感性。坝体在施工结束后，坝体形变加剧趋势并未缓解，并且出现2次加速现象，分析认为是由于在坝体铺设约2 m厚的碎砂石极大地增加了坝体荷载，打破了坝体原有的应力平衡状态，且识别出雨季对坝体形变影响显著，表明铺设砂石会使得降雨在坝体中的停滞时间加长，进一步引发非雨季期间坝体形变加剧。研究结果不仅能还原坝体出现异常形变的时间与演化过程，而且还可以对引起异常形变的内在影响因素进行分析与论证，对指导尾矿坝灾害识别、分析与治理具有重要的指导意义。     

穿层爆破中控制孔对裂隙扩展作用机理试验研究

为研究控制孔在穿层爆破中对裂隙扩展的作用机理，在实验室内进行穿层爆破相似模拟试验。研究表明:煤岩体试块上表面产生了贯穿炮孔和控制孔的裂隙，侧面生成了多条不规则的裂隙，试块内部出现了包括沿控制孔方向发展的多个断裂面；炮孔和控制孔连线上产生了较高拉应力，炮孔和控制孔连线方向上拉应变峰值是炮孔45°方向上的拉应变峰值的1.12倍；爆破产生的压缩应力波P和在控制孔处反射生成的反射横波Sr、反射纵波Pr在控制孔附近的煤岩体上产生应力叠加，造成煤岩体损伤，最终形成贯穿裂隙。穿层爆破中控制孔对爆生裂隙的扩展起到导向作用，但由于穿层爆破中煤岩交界面的存在，使得应力波出现复杂的反射、透射、叠加效应，造成煤层内裂隙无序发育，工程现场应予以重视。     

Factors influencing perceptions of aquatic ecosystems

While factors influencing perceptions of drinking water have been well studied, those of aquatic ecosystems have been to lesser extent. We conducted a review to improve awareness of these factors. Environmental factors found to influence public perceptions of aquatic ecosystems were presence/absence of water plants and algae, presence/absence of floating debris, the odor, movement (for flowing waters) and clarity/turbidity of the water, and the type, condition, setting, naturalness, and overall aesthetic appeal of the ecosystem. Sociocultural factors found to influence public perceptions of aquatic ecosystems included age, education, gender, and place-based knowledge. We provide perspectives of how managers can better meet the diverse social demands placed on aquatic ecosystems. The importance and benefits of considering these perspectives may be especially beneficial where significant multi-generational and culturally relevant place-based knowledge exist.     

Spatial cost–benefit analysis of blue restoration and factors driving net benefits globally

Marine coastal ecosystems, commonly referred to as blue ecosystems, provide valuable services to society but are under increasing threat worldwide due to a variety of drivers, including eutrophication, development, land-use change, land reclamation, and climate change. Ecological restoration is sometimes necessary to facilitate recovery in coastal ecosystems. Blue restoration (i.e., in marine coastal systems) is a developing field, and projects to date have been small scale and expensive, leading to the perception that restoration may not be economically viable. We conducted a global cost–benefit analysis to determine the net benefits of restoring coral reef, mangrove, saltmarsh, and seagrass ecosystems, where the benefit is defined as the monetary value of ecosystem services. We estimated costs from published restoration case studies and used an adjusted-value-transfer method to assign benefit values to these case studies. Benefit values were estimated as the monetary value provided by ecosystem services of the restored habitats. Benefits outweighed costs (i.e., there were positive net benefits) for restoration of all blue ecosystems. Mean benefit:cost ratios for ecosystem restoration were eight to 10 times higher than prior studies of coral reef and seagrass restoration, most likely due to the more recent lower cost estimates we used. Among ecosystems, saltmarsh had the greatest net benefits followed by mangrove; coral reef and seagrass ecosystems had lower net benefits. In general, restoration in nations with middle incomes had higher (eight times higher in coral reefs and 40 times higher in mangroves) net benefits than those with high incomes. Within an ecosystem type, net benefit varied with restoration technique (coral reef and saltmarsh), ecosystem service produced (mangrove and saltmarsh), and project duration (seagrass). These results challenge the perceptions of the low economic viability of blue restoration and should encourage further targeted investment in this field.     

铁山港海草生态区水体自净能力与水、生、化之间的关系

利用2008年1月～11月间对铁山港湾海草生态区进行的4个季节全面调查所获取的数据资料,首次探讨了该生态区水体自净能力与水动力特征及生物、化学因子之间的关系。结果表明:研究海区之所以具有较强的水体自净能力,其一与该海区具有强潮型的往复流水动力特征有关,在水体自净过程中起主导控制作用;其二与海区具有适宜的水温、快速的复氧能力、富足的溶解氧(DO)水平、最适合好氧微生物繁殖生长的环境条件有关,明显偏低的总有机碳(TOC)含量和丰富的总氮(TN)储量是有机物获得快速降解、营养盐获得快速再生、化学净化能力较强的重要体现;其三与生物链作用所体现的生化过程影响有关,DO含量与生物因子多呈显著以上负相关的季节变化特征以及三种形态N与生物因子在不同季节显示的相关性以事实佐证了这一点;而富足的TN储量、显著偏低的溶解无机氮(DIN)含量与繁盛的浮游动植物生物量及丰富的生物多样性同时出现的特征,正是研究海区具有较强生物净化能力的综合体现。与化学净化能力相比,生物净化能力显示出更强的优势,具有海草生态区的水体自净特点。     

Soil warming effect on net ecosystem exchange of carbon dioxide during the transition from winter carbon source to spring carbon sink in a temperate urban lawn

The significant warming in urban environment caused by the combined effects of global warming and heat island has stimulated widely development of urban vegetations. However, it is less known of the climate feedback of urban lawn in warmed environment. Soil warming effect on net ecosystem exchange (NEE) of carbon dioxide during the transition period from winter to spring was investigated in a temperate urban lawn in Beijing, China. The NEE (negative for uptake) under soil warming treatment (temperature was about 5℃ higher than the ambient treatment as a control) was -0.71 μmol/(m².sec), the ecosytem was a CO₂ sink under soil warming treatment, the lawn ecosystem under the control was a CO₂ source (0.13 μmol/(m².sec)), indicating that the lawn ecosystem would provide a negative feedback to global warming. There was no significant effect of soil warming on nocturnal NEE (i.e., ecosystem respiration), although the soil temperature sensitivity (Q₁₀) of ecosystem respiration under soil warming treatment was 3.86, much lower than that in the control (7.03). The CO₂ uptake was significantly increased by soil warming treatment that was attributed to about 100% increase of α (apparent quantum yield) and A_max (maximum rate of photosynthesis). Our results indicated that the response of photosynthesis in urban lawn is much more sensitive to global warming than respiration in the transition period.     

基于支持向量机的湖泊生态系统健康评价研究

利用支持向量机在处理分类问题、小样本问题和泛化推广方面的优势,构建了基于支持向量机的湖泊生态系统健康评价模型.同时,对广州市最大的人工湖——白云湖的水质及生物群落情况进行了监测,最后运用该模型对白云湖生态系统健康状况进行了评价.评价结果表明,白云湖生态系统处于病态状态,不能达到其净化水质的设计作用.建议从提高进水水质、实施湖区截污和丰富生物量3方面改善白云湖生态系统健康水平.与传统熵权综合健康指数法和熵权模糊综合评价法相比,所建模型更加客观、科学地评价了湖泊生态系统健康状况,能够为湖泊生态系统健康管理提供一定依据,具有广阔的应用前景.     

1980—2010年温榆河的水环境质量时空演变特征

以温榆河流域的主要超标污染物 COD 和氨氮为研究对象,通过历史数据和现场调查,系统研究了1980—2010年间温榆河的水环境质量时空演变特征.结果表明,温榆河流域水环境质量经历了清洁-污染-重度污染-污染遏制的过程,但水质现状均不达标;温榆河流域水环境质量好坏依次是上段>下段,温榆河>坝河>清河,并且Pearson相关分析表明,温榆河下段COD和NH+4-N浓度主要受清河影响;温榆河流域COD污染逐步遏制(超标倍数<1)、NH+4-N污染凸显(超标倍数8～20),耗氧物质处于从COD为主向NH+4-N为主转换的阶段;支流清河和坝河不仅是温榆河干流入河污染负荷的首要输入途径,而且支流上污水集中处理设施的排水是温榆河干流的首要补给来源(70.1%),其运行状况与升级改造对改善温榆河水环境质量至关重要.     

近17年鄱阳湖区生态系统健康时空变化研究

以遥感影像和社会统计数据为基础,构建基于压力-状态-响应(P-S-R)概念模型的鄱阳湖区生态系统健康评价指标体系,并建立湖区生态系统健康评价模型,通过对生态系统健康指数的计算与分析,揭示鄱阳湖区生态系统健康的时空变化特征.研究结果表明,在人类生产活动的影响下,近17年鄱阳湖区生态系统结构渐趋不合理,生态系统功能有所减弱,虽然湖区生态系统健康总体处于一般水平,但人类活动干扰的不断加强,导致湖区生态系统健康正逐步向着恶化方向发展.湖区生态系统健康在空间分布上呈现出南北分异的特点,南部工业化、城镇化水平较高的地区生态系统健康状况较差,经济发展水平较低的北部地区,生态系统健康状况则相对较好.     

北运河下游典型河网区水体中氮磷分布与富营养化评价

选择北运河下游典型河网区(闸坝多、水流慢和湖库化)为研究对象,通过为期1 a的水质监控,阐述了河网区氮、磷的时空变化特征,并利用对数型幂函数普适指数公式对其水体营养状态进行了评价.结果表明,河网区水体中TN平均质量浓度为12.50 mg.L-1(NH4+-N占67.41%),TP为1.45 mg.L-1(SRP占80.81%).河网区水体中氮、磷的时空分布特征明显,TN和NO 3--N质量浓度随季节变化特征趋于一致,NH 4+-N稍有不同;TP和SRP质量浓度随季节变化特征基本一致.从河网区进水带至出水带,水体中氮、磷质量浓度均呈逐渐下降趋势,其中TN、NH4+-N和NO3--N平均质量浓度分别从19.30、13.22和2.19mg.L-1降至7.98、4.45和1.50 mg.L-1;TP和SRP分别从1.95和1.59 mg.L-1降至1.11和0.91 mg.L-1.富营养化评价综合指数表明,河网区水体在时空尺度上均处于"极富"营养状态.