巢湖流域土地景观格局变化及生态风险驱动力研究

健康的流域生态系统是区域经济社会可持续发展的重要基础。探讨流域土地景观格局变化及生态风险驱动机制有助于生态系统状况诊断与风险来源认识,为有效制定生态风险管控措施提供决策依据。应用空间信息技术平台及计量分析方法,探讨了基于县域行政单元的快速城市化阶段巢湖流域土地景观格局变化及生态风险驱动力。研究表明:(1)2000~2013年,巢湖流域土地景观类型变化表现出农地、林地、水体景观面积下降,建设用地景观面积显著增加的趋势;流域景观水平上多样性和均匀度呈下降、优势度呈上升趋势,景观空间异质性下降;(2)近15 a来,巢湖流域9个行政单元内生态风险均呈上升趋势,生态风险整体恶化,需加强对流域生态风险上升的管控;(3)生态风险驱动力分析表明,快速城市化阶段巢湖流域生态风险的主要驱动因子为第二产业值、城市化率、人口密度和固定资产投资,而人均GDP的增加在一定程度上会降低生态风险水平。     

依托北槽、建设长江口亚三角洲体系——关于长江流域开发龙头新基地的战略构想

当前正处于向长江口发展的最好时机。随着长江口深水航道整治工程的开展,长江口水流复杂、河势易变的局面正在改变,加之长江口越江通道的建成通车,在长江口外形成超深水泊位及超深水航道的条件已渐趋成熟。利用长江口外-15 m以深的天然水深建设海上人工岛,就可达到-20 m以深的航道水深,打造河口深水大港,使之成为长江流域水水中转、海陆联运的桥头堡;而整治、疏浚工程所产生的大量泥沙,又为促使横沙东滩及其邻近沙洲加快成陆创造了条件。通过疏浚、促淤、造陆的三位一体,预计可在未来20 a间长江口南港与北港之间、北槽主航道两侧形成500多km²的河口岛群,发育塑造成为长江河口的亚三角洲体系.     

基于开源GIS的长江流域晴日辐射反演

以开源GIS软件GRASS为平台,首次通过辐射过程模型r.sun和编程语言Shell实现长江流域500 m分辨率的晴日辐射反演（包括直接辐射、散射辐射和反射辐射）,为了解长江流域辐射时空分布规律和相关宏观气候、生态建模奠定基础。结论如下：（1）精度验证表明,晴日辐射反演结果较理想;相关晴日指数的误差指标MPE、MAPE和RMSE分别为37%、75%和64%,r.sun模型可进一步用于中国其它区域;（2）长江流域晴日辐射年均日值为2424±245 MJ/(m2·d),其各组分差异显著,直接、散射、反射辐射分别占总辐射的842%、156%和02%;（3）晴日辐射空间分布梯度明显,沿三级地形阶梯向东辐射值及变异逐渐减小,海拔变化引起的大气衰减因素在决定晴日辐射分布时起重要作用;（4）晴日辐射季节分布不对称,月际变化总体呈倒“U”形分布;直接辐射和散射辐射变化趋势基本一致,但二者比例随大气浑浊度的变化波动剧烈。     

Change of stream network connectivity under polder-type flood control measure

Polder is usually used for flood control in the river delta area. With the rapid development of urbanization, the dikes or pumps cut the original stream network system, and the stream network connectivity (SNC) and the river system pattern have changed. The dikes or pumps generally force up the river's water level, and regional flood formation mechanisms and processes have changed. In order to quantitatively describe the characteristics of polder-type flood control measure (PFCM) and the change law of SNC, firstly, the streams inside polders were generalized as virtual streams, a hydrological-hydrodynamic model was constructed by connecting Hydrologic Engineering Center-Hydrologic Modeling System and MIKE11 model. Secondly, an SNC evaluation model was constructed based on flow resistance and hydrological process. Finally, the SNC under different scenarios was simulated and evaluated to reveal the influence of the PFCM on SNC. And the dominance analysis method obtained the main control factors of SNC changes. The results showed that the pumps as the main drainage facility under the PFCM, SNC after the opening of the pumps were increased by 0.060, 0.103, and 0.311 for 50%, 30%, and 3% frequency flood scales compared with the pumps closed, respectively. However, compared with the natural stream (without the PFCM), the SNC decreased by 0.391, 0.456, and 0.487, respectively, at the same time of the same flood scale. The PFCM negatively impacted the SNC, and the number of pumps was the main control factor of the SNC.     

辽河流域浑河、太子河生态需水量研究

针对浑河和太子河的鱼类栖息地环境需求,构建了由流速、水深、水面宽率、湿周率和过水面积率5个河道参数组成的栖息地适宜性指标体系.分别选择浑河的沈阳、邢家窝棚和太子河的辽阳、本溪和唐马寨5个河段,通过分析河道形态特征以及水位与流量的相关关系,建立了河道流量与每个栖息地指标间的经验关系公式,并确定指示鱼类在不同生活期的最小栖息地适宜标准,计算出为满足不同栖息地标准所需要维持的河道最小生态需水量,并采用最大值原则确定出各河段为满足鱼类生存的河道最小生态需水量.结果表明,浑河的最小生态流量4月～11月介于9.59～12.78 m3·s-1,分别占年平均天然径流量的17.13%～23.72%,12月～3月为5.70 m3·s-1,占天然径流量的10.59%;太子河的4月～11月介于9.83～19.83 m3·s-1,占天然径流量的23.33%～37.01%,12～3月为3.84～6.47 m3·s-1,占天然径流量的8.83%～9.82%.     

水生态监测方法研究进展及在黄河流域的应用实践

水生态监测能够为水生态环境监督、管理和保护提供重要的数据和技术支撑。加强黄河水生态监测,维护流域水生态系统健康,对促进黄河流域高质量发展具有重要意义。从常规水质监测、生境监测和生物监测3个方面,分析了中国水生态监测方法的研究进展及在黄河流域的应用实践。结合黄河流域水生态监测尤其是生物监测相对滞后的现状,探讨了流域水生态监测的发展方向。建议加快黄河流域水生态监测能力建设,建立适用于黄河流域的水生态监测与评价标准体系,探索新兴监测技术与传统技术的有机结合。     

Gridded inventories of historical usage for selected organochlorine pesticides in Heilongjiang River Basin, China

Introduction O rganochlorine pesticides (O C Ps) is a com m on nam e of a group of pesticides consisting of benzene and chlorine. Som e of O C Ps belong to persistent organic pollutants (PO Ps) that are sem i-volatile, bioaccum ulative, persistent and toxic (V allack et al., 1998; Jones and de V oogt, 1999). O CPs are ubiquitous pollutants due to their long-range transport potential. These chem icals have even been found in rem ote areas like the A rctic (M acdonald etal., 2000; A M A …     

九龙江流域河水溶解态碳的时空变化

为了研究九龙江流域河流中溶解碳变化规律,分别于2017年7月与2018年1月对九龙江河水溶解无机碳（DIC）与溶解有机碳（DOC）进行了分析。丰水季河水DIC浓度为7.50~49.04 mg/L,平均值为22.12 mg/L,枯水季DIC浓度为8.84~84.91 mg/L,平均浓度41.17 mg/L,丰水季河水中的DOC浓度为0.54~2.89 mg/L,平均值为1.04 mg/L,枯水季河水中DOC浓度变化在1.34~3.56 mg/L之间,平均值为2.34 mg/L,据此计算了九龙江河水DOC、DIC的入海通量。研究结果表明九龙江河水中溶解碳具有显著的时空变化特征,通过与中国其他河流溶解碳数据对比,解释了碳酸盐岩的风化、气候变化、河流中浮游植物以及人类活动对九龙江河流溶解碳浓度的影响。     

基于SD模型的博尔塔拉河流域水资源承载力研究

从水资源承载力的研究方法入手,采用系统动力学方法进行水资源承载力定量化计算,在对博尔塔拉河流域地理环境现状和该方法建模思路分析的基础上,建立适合该地区特色的系统动力学模型（简称SD模型）。应用Yenism软件,把各参数代入方程,对博尔塔拉河流域水资源利用和需求进行动态计算。通过对模型计算结果的分析,验证了模型的合理性和可操作性,从而为博尔塔拉河流域水资源承载力的进一步研究提供了必要的手段,也为其他区域的水资源可持续利用研究提供了一定的借鉴。     

Nitrogen Flow Analysis in Huizhou, South China

Eutrophication due to uncontrolled discharges of nitrogen and phosphorus has become a serious pollution problem in many Chinese rivers. This article analyzes the nitrogen flow in Huizhou City in the East River watershed in south China. The material accounting method was applied to investigate the nitrogen flows related to human activities, which consist of the natural and anthropogenic systems. In Huizhou City, the nonpoint source pollution was quantified by the export coefficient method and the domestic discharge was estimated as the product of per capita nitrogen contribution and population. This research was conducted based on statistical information and field data from 1998 in the Huizhou City. The results indicated that the major nitrogen flows in this area were river loads, fertilizer and feedstuff imports, atmospheric deposition, animal manure volatilization, and processes related to burning and other emissions. In 1998, about 40% of the nitrogen was retained in the system and could result in potential environmental problems. Nitrogen export was mainly by rivers, which account for about 57% of the total nitrogen exported. Comparisons made between the East River and the Danube and Yangtze Rivers show that the unit area nitrogen export was of the same magnitude and the per capita nitrogen export was comparable.