Using the concept of ecological groundwater level to evaluate shallow groundwater resources in hyperarid desert regions

This paper, based on the analysis and calculation of the groundwater resources in an arid region from 1980 to 2001, put forward the concept of ecological groundwater level threshold for either salinity control or the determination of ecological warning. The surveys suggest that soil moisture and soil salinity are the most important environmental factors in determining the distribution and changes in vegetation. The groundwater level threshold of ecological warning can be determined by using a network of groundwater depth observation sites that monitor the environmental moisture gradient as reflected by plant physiological characteristics. According to long-term field observations within the Ejin oases, the groundwater level threshold for salinity control varied between 0.5 m and 1.5 m, and the ecological warning threshold varied between 3.5 m and 4.0 m. The quantity of groundwater re- sources （renewable water resources, ecological water resources, and exploitable water resources） in arid areas can be calculated from regional groundwater level information, without localized hydrogeological data. The concept of groundwater level threshold of ecological warning was established according to water development and water re- sources supply, and available groundwater resources were calculated. The concept not only enriches and broadens the content of groundwater studies, but also helps in predicting the prospects for water resources development.

Protection and Ecological Restoration of Water Level Fluctuation Zone in the Three Gorges Reservoir

Water level fluctuation zone(hereinafter referred to as "WLFZ") is a transitional ecosystem between terrestrial ecosystem and aquatic ecosystem,and also a key area to control its neighboring terrestrial and aquatic ecosystem. After the Three Gorges Reservoir was put into use,ecological environment of its WLFZ has aroused wide concern from domestic and foreign experts. On the basis of introducing characteristics of WLFZ of the Three Gorges Reservoir,current ecological environment and main problems of this area were analyzed,plant selection and configuration was elaborated as well as the implementation effect of many WLFZ protection and ecological restoration modes. In view of the actual conditions,pertinent suggestions were proposed for WLFZ of the Three Gorges Reservoir,namely classified protection and ecological restoration,enhancing monitoring and assessment of current situation and change tendency,carrying out technical researches and demonstration of WLFZ wetland ecological restoration.

Assessment of rehabilitation strategies for lakes affected by anthropogenic and climatic changes: A case study of the Urmia Lake, Iran

Over the last three decades,more than half of the world's large lakes and wetlands have experienced significant shrinkage,primarily due to climate change and extensive water consumption for agriculture and other human needs.The desiccation of lakes leads to severe environmental,economic,and social repercussions.Urmia Lake,located in northwestern Iran and representing a vital natural ecosystem,has experienced a volume reduction of over 90.0%.Our research evaluated diverse water management strategies within the Urmia Lake basin and prospects of inter-basin water transfers.This study focused on strategies to safeguard the environmental water rights of the Urmia Lake by utilizing the modeling and simulating(MODSIM)model.The model simulated changes in the lake's water volume under various scenarios.These included diverting water from incoming rivers,cutting agricultural water use by 40.0%,releasing dam water in non-agricultural seasons,treated wastewater utilization,and inter-basin transfers.Analytical hierarchy process(AHP)was utilized to analyze the simulation results.Expert opinions with AHP analysis,acted as a multi-criteria decision-making tool to evaluate the simulation and determine the optimal water supply source priority for the Urmia Lake.Our findings underscore the critical importance of reducing agricultural water consumption as the foremost step in preserving the lake.Following this,inter-basin water transfers are suggested,with a detailed consideration of the inherent challenges and limitations faced by the source watersheds.It is imperative to conduct assessments on the impacts of these transfers on the downstream users and the potential environmental risks,advocating for a diplomatic and cooperative approach with adjacent country.This study also aims to forecast the volumes of water that can be transferred under different climatic conditions—drought,normal,and wet years—to inform strategic water management planning for the Urmia Lake.According to our projection,implementing the strategic scenarios outlined could significantly augment the lake's level and volume,potentially by 3.57×109–9.38×109 m3 over the coming 10 a and 3.57×109–10.70×109 m3 in the subsequent 15 a.

The 3D simulation and optimized management model of groundwater systems based on eco-environmental water demand

Through the study of mutual process between groundwater systems and eco-environmental water demand, the eco-environmental water demand is brought into groundwater systems model as the important water consumption item and unification of groundwater抯 economic, environmental and ecological functions were taken into account. Based on eco-environmental water demand at Da抋n in Jilin province, a three-dimensional simulation and optimized management model of groundwater systems was established. All water balance components of groundwater systems in 1998 and 1999 were simulated with this model and the best optimal exploitation scheme of groundwater systems in 2000 was determined, so that groundwater resource was efficiently utilized and good economic, ecologic and social benefits were obtained.

省域国土空间生态修复规划体系构建的逻辑与实践——基于“规划—设计—治理”的视角

国土空间生态修复是推进国土空间治理的重要手段,厘清其规划体系的构建逻辑对于国土空间生态修复规划的编制实施和作用发挥至关重要。从需求层次出发,阐明国土空间生态修复规划体系构建的基本逻辑,以浙江省为例,探索建立省域国土空间生态修复规划体系构建的理论。研究表明:(1)国土空间生态修复规划在需求层面上可体现为“功能修复—韧性提升—价值实现”3个层次。(2)围绕着“整体规划—深化设计—系统治理”的逻辑,提出国土空间生态修复规划作为专项规划的体系构建逻辑。(3)基于构建逻辑,将省域国土空间生态修复规划梳理形成“编制—实施—支撑”3个体系。国土空间生态修复规划要从需求层次变化的认识入手,以维护生态安全、提升空间价值为目标,在省域范围内通过纵向传导、横向深化及全流程支撑3个维度构建规划体系,为系统化开展国土空间生态修复工作探索实施路径。

控制性供水湖泊旱限水位确定方法——以洱海为例

旱限水位作为干旱预警以及工程抗预案的重要指标和依据,对科学指导湖泊开展抗旱调度具有重要的作用。本文针对控制性供水湖泊的特征,在充分考虑湖泊自身生态健康稳定的同时,结合湖泊兴利调节逆序递推计算,提出了一种控制性供水湖泊旱限水位计算方法,以洱海为例,验证了该方法的合理性。结果表明:通过设定旱限水位,在考虑湖泊最小生态需求的基础上,通过在干旱前期预留水量,可有效缓解干旱年份的湖泊周边地区的严重缺水情况;在设置旱限水位后,连旱最不利年份下洱海环湖供水缺水量减少1023万m^(3),引洱入宾农业灌溉用水减少1016万m^(3),环湖城市供水、引洱入宾灌溉严重缺水月数分别减少11、10个,低于最低生态水位月数减少15个。本研究为水旱灾害防御部门制定湖泊旱限水位、指导湖泊开展抗旱调度提供了一套通用算法,能够为干旱防御决策提供科学依据和技术支撑。

南昌市象湖湿地公园消落带植物景观生态修复策略

为减轻城市湿地公园的消落带生态退化问题(环境污染、水土流失、土壤侵蚀、功能退化等),探求高效的生态修复策略。以南昌市象湖湿地公园为研究对象,在系统分析消落带的共性生态环境问题及现状基础上,提出了相应的景观生态修复策略:1)在广泛调查地域性消落带植物种类及其群落组成的基础上,筛选出适合公园环境的湿生植物种类;2)适度调整消落带的护坡和护岸结构,以自然式护岸为主;3)以乡土的湿生植物为主,建议配植适生植物群落,修复受损的消落带生境,形成特色护岸景观。研究城市湿地公园消落带的植物景观生态修复,有利于实现消落带生境修复、景观游憩、水体净化、减污增汇等生态效益,以构建生态环境友好型的消落带景观。

京杭大运河全线贯通补水对地下水回补的影响

基于2022—2023年京杭大运河(小运河、卫运河、南运河、北运河、通惠河)全线贯通补水期间沿线419眼浅井和173眼深井地下水位监测数据,分析实施生态补水后河道的入渗水量以及河道沿线和灌溉水源置换区的地下水位变化。结果表明:相较小运河、北运河和通惠河等衬砌河道,卫运河和南运河渗透性较好,地下水回补效果更为显著;贯通补水后大运河河道周边0~10 km范围内浅层地下水位较去年同期回升0.48 m,3—5月春灌期取水过程中大运河沿线地下水位下降幅度减少了0.19 m,表明生态补水对地下水位恢复具有积极作用;河道周边地下水位对生态补水过程的响应有滞后,表现为距离河道越近,水位下降幅度越小;水源置换能够有效缓解因灌溉取水导致的水位下降,卫运河和南运河段农灌受水区深、浅层地下水位较去年同期分别回升3.17 m和0.27 m。重点对入渗性强、灌溉需水量高的河段持续实施生态补水,保证河道水量,能够更为有效地促进地下水水位回升。

湖泊与河流水文连通量化计算模型及其应用

湖泊与河流水文连通的量化是指导河湖保护与治理的关键之一,也是当前河湖生态复苏研究的热点问题。本文提出了一种湖泊与河流水文连通的量化计算模型,仅需少量实测或水动力模拟数据进行校验,即可量化计算单一或多个连通水道的河湖水文连通度。水位变化率与水位是决定水文连通的主控因子,水体交换强度与水位变化率呈线性正相关,且其增长速率与水位呈正相关。提出的水体交换流量计算方法可估算湖泊与长江水体交换流量。同等水位及水位变化率条件下,湖泊向长江输出水流的效率大于长江向湖泊灌入水流的效率。水文连通度峰值一般出现在整体上升或下降区间内的变异点,通过改变水位抬升或下降过程,可有效提升水文连通度均值及峰值,指导面向湖泊水生态环境改善的生态调度等。

洞庭湖生态水位与生态需水量研究

为保护洞庭湖生态系统,基于洞庭湖鹿角、杨柳潭和南咀水文站1961~2020年逐日水位监测数据,开展洞庭湖生态水位和生态需水量的研究。运用天然水位资料法、湖泊形态法、生物空间最小需求法、年保证率法、最低年平均水位法和频率曲线法等6种分析方法计算得出洞庭湖生态水位,利用功能法计算得出洞庭湖生态需水量。结果表明:(1)洞庭湖东、南、西3个湖区最低生态水位分别为24.20,27.78,29.42 m,适宜生态水位分别为25.80,29.07,30.08 m。(2)洞庭湖东、南、西3个湖区最低生态需水量分别为6.31亿,10.02亿,3.83亿m^(3),适宜生态需水量分别为12.66亿,13.99亿,4.61亿m^(3),洞庭湖最低与适宜生态需水量分别为20.16亿m^(3)和31.26亿m^(3)。研究成果可为洞庭湖区域水资源合理配置、湖区生态系统健康运转和洞庭湖治理与保护提供参考依据。

塔里木河流域天然林草保护与修复研究

开展塔里木河流域天然林草保护与修复研究,对于复苏河湖生态环境、保护生态安全屏障、实现流域社会经济发展、实施乡村振兴等国家重大战略有重要意义。基于塔里木河流域“九源一干”自然生态系统变化趋势与现状,从稳定流域自然生态系统规模和提升生态系统功能的角度出发,通过大量的天然林草面积和覆盖度变化数据对比分析,综合设定分区保护下的流域天然林草生态保护目标和保护修复面积,并确定其相应的生态保护需水量。结果表明:天然林草保护和修复面积为1.57万km^(2),其中,保护区面积1.40万km^(2),修复区面积0.17万km^(2);流域天然林草生态保护需水总量为60.36亿m^(3),其中,基本生态需水为51.32亿m^(3),生态修复水量为9.04亿m^(3),并提出了相应生态保护与修复措施、机制。研究成果可为塔里木河流域生态保护与修复提供参考。

城市河流低水位运行生态修复机制与实践效果

为厘清城市河流低水位运行的水生态修复机制,开展了垂向监测水和底泥理化指标、定量监测微生物功能基因、测定微生物活性等室内模拟试验,分析了泥-水界面环境因子及底泥溶解氧的变化特征,研究了底泥主要污染物和功能微生物的变化特征,揭示了低水位运行下污染底泥上层硝化和下层反硝化的协同耦合过程。结果表明:低水位运行可改变底泥的“源-汇”属性,高水位时的“源”转变成低水位的“汇”,继而实现水质的提升;伴随着污染底泥的修复,可逐步形成“底栖动物-沉水植物-挺水植物-昆虫-鸟类”的多营养级完整水生态系统;污染底泥治理是生态修复的关键,城市河流在低水位运行模式下可实现底泥自修复和生态系统构建。

抽水蓄能电站水库岩质边坡消落带生态修复探讨

抽水蓄能电站是我国水利水电开发的重要组成部分,建成运行后将形成库水周期性涨落的消落带,生境条件极为脆弱,是生态环境修复的重难点区域。对岩质边坡生态修复关键技术和水库消落带生境改善方法开展系统分析,结合河南天池抽水蓄能电站上水库岩质边坡消落带生境特征,提出土工格室+生态袋+挂网复合工程技术可作为水库岩质边坡消落带生态治理的关键措施。基于消落带库水涨落节律和植物自身遗传特性,指出消落带下端优先配置长期耐淹多年生草本植物(如狗牙根),消落带中端配置耐淹能力较强的灌木和草本(如秋华柳、黄荆、紫穗槐、中华蚊母和狗牙根等),消落带上端可综合配置抗旱耐淹能力较好的乔木、灌木和草本(如银合欢、桑树、紫穗槐、黄荆、秋华柳、狗牙根和苘麻等),以及生态适应性较强的乡土植物(如藜和诸葛菜等)。研究成果对抽水蓄能电站水库岩质边坡消落带生态治理具有重要指导意义。

适应水位变化的三峡库区消落带碳汇提升设计及效益评估

【目的】三峡库区消落带受周期性的水位涨落及冬季长时间深水淹没影响,碳汇能力遭受严重破坏。如何恢复并充分发挥消落带生态系统的碳汇潜力,成为三峡库区生态治理的关键议题。【方法】针对复杂水位变化挑战,提出以林塘模式修复消落带生态系统并提升碳汇能力的技术框架,选取位于三峡库区腹心的大浪坝消落带开展实证研究。运用CASA模型测算修复前后大浪坝消落带的净初级生产力(net primary productivity,NPP),基于植被生物量数据计算修复后大浪坝消落带与未修复对照组内不同高程带的碳汇能力,评估林塘碳汇系统的可持续效益。【结果】修复后大浪坝消落带的碳汇能力随时间推移明显提升,NPP由2012年的154.4 g C·m^(2)·a^(-1)增长至2016年的182.5 g C·m^(2)·a^(-1);各高程带的碳汇能力均显著高于对照组,并呈现出随海拔降低而减弱的趋势,170~175 m高程带碳汇能力达到1.827 kg C/m^(2),160~165 m高程带碳汇能力仅为0.830 kg C/m^(2)。林塘系统增强了生态系统的适应性和复原力,形成了适应水位变化的立体固碳模式并有效提升了碳汇效率。【结论】林塘碳汇系统是应对三峡库区复杂水位变化和长时间深水淹没挑战的适应性探索,显示出景观优化、生物多样性、经济效益与碳汇协同耦合的关键特征。研究成果能够为中国大型工程型水库消落带的治理及碳增汇提供科学依据与可复制推广的创新技术模式。

生态补水以来永定河周边地下水变化分析

为评估生态补水以来永定河周边地下水的变化,利用空间分析等方法,分析了2019-2022年其地下水水位及水质情况.结果表明:补水期间,永定河沿线地下水水位呈显著回升趋势,其中沿线上游地区回升更为明显;空间上,距离HCO_(3)^(-)河道越近的区域,地下水水位响应速度越快.研究区地下水呈弱碱性,优势阴阳离子为Ca^(2+)、Na^(+)和.受生态补水、降水、水文地质条件及补水水质等多重因素的共同影响,研究区地下水水质得到了明显的改善,地下水总硬度和硝酸盐氮质量浓度均呈下降趋势,其中硝酸盐氮下降更为显著.

避暑山庄湖区生态需水量的分析与研究

根据避暑山庄湖区监测点实际情况,通过对水文各要素进行监测,计算出湖区最小生态水位及最小生态需水量。同时,对山庄湖区水量平衡进行计算,根据分析结果提出保证湖区生态需水的建议。

三峡水库消落区生态恢复措施与实践——以重庆市万州区陈家坝向坪肥子坝段为例

三峡工程完工后,在145~175 m高程的库区两岸形成与天然湖库涨落季节相反、涨落幅度30 m的消落区。消落区存在生态环境脆弱、人居环境较差、滨水生态破坏较严重等问题。以重庆市万州区陈家坝向坪肥子坝段长江消落区为例,在坚持生态优先、兼顾景观的原则下,以植被恢复工程设计为主,兼顾辅助工程设计,通过植物空间处理与品种筛选相结合,辅以配套设施等工程措施,达到生态恢复的效果,同时兼顾景观休闲功能,为人们提供亲水空间。相关实践可为其他区域消落区生态恢复提供参考。

塞罕坝国家森林公园泰丰湖景区生态需水研究

以塞罕坝国家森林公园主要湖泊泰丰湖为研究对象,根据泰丰湖湖区监测点实际情况、湖泊面积、湖泊水位特征值,确定湖区最小生态水位,并计算出湖区最小生态需水量14.67万m^(3)/年;同时根据沟台子水文站、外沟门子蒸发站、大脑袋雨量站数据,对泰丰湖湖区进行水量平衡计算,根据分析结果,提出了维护湖区生态需求的建议。

生态补水对刁口河流路地下水位与pH值的影响研究

自2010年起,刁口河生态补水已持续14年,极大地改善了刁口河流路生态环境。为直观研判生态补水效果,在该流路补设地下水监测井位、土壤监测点,建立监测系统获取一手数据,结合气象资料,科学研判生态补水对刁口河流路的生态改善距离、程度。经监测分析,生态补水对刁口河流路湿地地下水位在1km范围内有显著提升,且明显降低了pH值,有效地改善了刁口河流路湿地生态。

生态调水对民勤盆地地下水位变化的影响分析

民勤绿洲是河西走廊石羊河流域下游将巴丹吉林沙漠和腾格里沙漠分割的一块绿洲,对于这两大沙漠的合拢有着极其重要的意义,也对河西走廊的生态保障有着不凡的作用。本文基于GIS平台,利用石羊河流域智慧水资源管理平台采集的数据,分析了民勤盆地地下水位年内、年际变化特征和地下水位埋深的空间分布规律。结果表明,近5年内民勤盆地地下水位年内变化波动较大,年际变化相对平稳,处于回升状态,平均回升0.33 m。当地管理部门应继续合理规划水资源配比,以实现水资源的可持续发展。