Development of a River Macrophyte Index (RMI) for assessing river ecological status

We present the process of developing a macrophyte based index (River Macrophyte Index – RMI) for assessing river ecological status, that would be applicable for rivers with moderate to high water alkalinity, flowing over low slope terrain. A reference value and boundary values were determined for five ecological classes. The relation between the developed index and two existing indices, the Reference Index (RI) and the Trophic Index of Macrophytes (TIM), and selected environmental variables was established. The RMI is based on species composition and abundance from 208 sampling sites being in reference or good hydromorphological conditions and differing in the catchment land use. The percentage of natural areas in the sub-catchment was used for classifying macrophyte taxa into 5 ecological groups. 65 plant taxa, of which 47 were identified as indicator taxa, were included in the analysis. To assess the ecological status of a river site, the presence of at least 3 indicator taxa is necessary, otherwise the assessment is considered inconclusive. RMI is expected to indicate multiple pressures on the river, including trophic level. The developed index and RI and TIM indices differed in relation to slope, distance to source and catchment size.     

Climate control on summer precipitation in the Source Region of Three Rivers,China: East or South Asian summer monsoon?

ABSTRACT

The Source Region of Three Rivers (SRTR) has experienced wetter summer seasons than before in recent decades due to climate change. As the most important source of surface water, precipitation plays a key role in supplying the three largest rivers. This study investigates the impacts of the East Asian summer monsoon (EASM) and the South Asian summer monsoon (SASM) on precipitation in the SRTR. Using wavelet analysis tools, we found that: (i) summer precipitation in the SRTR showed notably different responses to the monsoon variability among the 14 stations studied; (ii) the influence of the EASM and SASM on summer precipitation was stronger in the southern and eastern SRTR; but (iii) this influence quickly dampened from southeast to northwest and became almost indiscernible in the northwestern SRTR. This research may help to increase the accuracy of long-term monsoon-rainfall prediction and improve water resource management in the SRTR.     

A roughness-corrected index of relative bed stability for regional stream surveys

Quantitative regional assessments of streambed sedimentation and its likely causes are hampered because field investigations typically lack the requisite sample size, measurements, or precision for sound geomorphic and statistical interpretation. We adapted an index of relative bed stability (RBS) for data calculated from a national stream survey field protocol to enable general evaluation of bed stability and anthropogenic sedimentation in synoptic ecological surveys. RBS is the ratio of bed surface geometric mean particle diameter (D_gm) divided by estimated critical diameter (D_cbf) at bankfull flow, based on a modified Shield's criterion for incipient motion. Application of RBS to adequately depict bed stability in complex natural streams, however, has been limited because typical calculations of RBS do not explicitly account for reductions in bed shear stress that result from channel form roughness. We modified the index (RBS) to incorporate the reduction in bed shear stress available for sediment transport that results from the hydraulic resistance of large wood and longitudinal irregularities in channel dimensions (“form roughness”). Based on dimensional analysis, we derived an adjustment to bankfull shear stress by multiplying the bankfull hydraulic radius (R_bf) by the one-third power of the ratio of particle-derived resistance to total hydraulic resistance (C_p/C_t)^1/3, where both resistances are empirically based calculations. We computed C_p using a Keulegan equation relating resistance to relative submergence of bed particles. We then derived an empirical equation to predict reach-scale hydraulic resistance C_t from thalweg mean depth, thalweg mean residual depth, and large wood volume based on field dye transit studies, in which total hydraulic resistance C_t was measured over a wide range of natural stream channel complexity, including manipulation of large wood volumes. We tested our estimates of C_t and RBS by applying them to data from a summer low flow probability sample of 104 wadeable stream reaches in the Coastal Ecoregion of Oregon and Washington, USA. Stream discharges calculated using these C_t estimates compared favorably with velocity–area measurements of discharge during summer low flow, and with the range of 1 to 2-year recurrence floods (scaled by drainage area) at U.S.Geological Survey gauged sites in the same region. Log [RBS] ranged from − 4.2 to + 0.98 in the survey region. D_gm ranged from silt to boulders, while estimated bankfull critical diameter, D_cbf, ranged from very fine gravel to large boulders. The median value of D_cbf (adjusted for form roughness influences) averaged 40% (inter quartile range 28 to 59%) of the unadjusted estimate D_cbf. Log[RBS] was consistently negatively related to human disturbances likely to produce excess sediment inputs or hydrologic alteration. Log [RBS] ranged from − 1.9 to + 0.5 in the streams within the lower quartile of human disturbance in their basin and riparian areas and was substantially lower (− 4.2 to − 1.1) in streams within the upper quartile of human disturbance. The synoptic survey methods and designs we used appear adequate to evaluate regional patterns in bed stability and sedimentation and their general relationship to human disturbances. Although the RBS concept also shows promise for evaluating sediment and bed stability in individual streams, our approach is relatively coarse, so site-specific assessments using these rapid field methods might prudently be confined to identifying severe cases of sedimentation or channel alteration. Greater confidence to discern subtle differences in site-specific assessments could be gained by calculating RBS using more precise field measurements of channel slope, bed particle size and bankfull dimensions, and by refining our adjustments for energy loss from channel form roughness.     

Isotopic features of rivers and groundwater of the Parma Province (Northern Italy) and their relationships with precipitation

The Enza, Parma, Baganza, Taro and Po rivers and several waters from aquifers of the area of the Parma town (northern Italy) have been investigated for oxygen and hydrogen isotopes. Enza, Parma, Baganza and Taro differ from Po in having higher isotope ratios and the Taro River exhibits an isotope ratio higher than those of Enza, Parma and Baganza. The low values of Po are due to the dominant contribution of waters coming from glaciers and precipitation occurring along the Alps. The high values of the Taro River are probably due to the fact that its catchment basin extends close to the Tyrrhenian sea and is well opened to perturbations coming from the west. The isotopic values of the present day precipitations occurring along the northern Apennine piedmont area are lower than in rivers. On the contrary, the rivers resemble waters issuing from springs located close the Apennine ridge; the isotopic values of the last waters probably approach those in the precipitation occurring at present along the Apennine ridge. Reasonably, the low isotope values recorded in precipitation of the Apennines piedmont area are due to cold air masses invading the Po plain from N or NE rather than only to the change in the regime of precipitation (higher amount in cold periods, lower amount in the hot periods). Waters of the aquifer of the Po plain have been investigated in the Priorato, Parola and Parma fields (Parma Province). The aquifers are largely fed by the surface hydrographic system: their waters have constant isotopic composition and resemble waters of the Apennines rivers. They are also isotopically similar to the average precipitation occurring from 1995 to 2006, but differ largely from recent (2003–2005) precipitation. Minor isotopic variations recorded in a well of the Priorato field suggest that this well is partly fed by local precipitation.     

Temporal and spatial variations in water discharge and sediment load in the Alaknanda and Bhagirathi Rivers in Himalaya, India

The Alaknanda and Bhagirathi Rivers originate in the mountainous regions of the Himalayas (Garhwal) and result in high sediment yields causing flood hazards downstream of the Ganga River and high sediment flux to the Bay of Bengal. The rivers are perennial, since runoff in these rivers is controlled by both precipitation and glacial melt. In the present study, three locations in the upper reaches of the Ganga River were monitored for 1 yr (daily observations of, more than >1000 samples) for suspended sediment concentrations. In addition, more than one hundred samples were collected from various locations of the Alaknanda and Bhagirathi Rivers at different periods to observe spatial and temporal variations in river suspensions. Further, multi-annual data (up to 40 yrs) of water flow and sediment concentrations were used for inferring the variations in water flow and sediment loads on longer time scales. In most previous studies of Himalayan Rivers, there has been a general lack of long term water flow and sediment load data. In the present study, we carried out high frequency sampling, considered long term discharge data and based on these information, discussed the temporal and spatial variations in water discharge and sediment loads in the rivers in the Himalayan region. The results show that, >75% of annual sediment loads are transported during the monsoon season (June through September). The annual physical weathering rates in the Alaknanda and Bhagirathi River basins at Devprayag are estimated to be 863 tons km⁻² yr⁻¹ (3.25 mm yr⁻¹) and 907 tons km⁻² yr⁻¹ (3.42 mm yr⁻¹) respectively, which are far in excess of the global average of 156 tons km⁻² yr⁻¹ (0.58 mm yr⁻¹).     

我国西部"五江一河"可供跨流域调取的水量究竟有多少? ——二评"红旗河工程"构想

以青藏高原南部为主体的我国西部大江大河,可供跨流域调取的水资源量究竟有多少?是决定向西北干旱区调水成功与否的前提条件之一。因此,本文关注的焦点是:我国西部诸江河究竟有多少水资源量?能否达到"红旗河"构想的每年600亿m~3的调水量?本文依据各类文献资料中有关"红旗河"拟取水的"五江一河"各节点上、下游水文站及相关水电站的多年平均径流量及年际变化数据,估算并厘定出各取水节点的年平均水资源量为:雅鲁藏布江600×10~8m~3,帕隆藏布与易贡藏布合计320×10~8m~3,怒江320×10~8 m~3,澜沧江200×10~8 m~3,金沙江313×10~8 m~3,雅砻江250×10~8 m~3和大渡河210×10~8 m~3。按照S4679课题组和王浩院士所给出的国际通行的20%跨流域调水比例或21%的"红旗河"标准,本文匡算出"五江一河"理想的可调取水量为442.6×10~8m~3或464.7×10~8m~3,不足S4679课题组构想的600×10~8m~3调水量的78%。如果南水北调西线规划得以实施,则"红旗河"难以从金沙江、雅砻江和大渡河这三个节点全额调水,长江上源只有大渡河(18.5～20.6)×10~8m~3的水量可资利用。这种情形下,本文匡算出可供"红旗河"调取的总水量为(288～323.0)×10~8 m~3,只有S4679课题组构想调水量的大约一半,充其量不到54%。     

滇西北三江并流区土地利用变化研究

土地利用变化会改变地表覆盖,从而影响环境质量及陆地生态系统性质。开展区域土地利用/土地覆盖变化研究,可为区域土地资源优化利用和可持续发展提供科学依据。以第二次土壤普查资料和土地详查资料为依据,采用土地利用变化指数模型,定量分析三江并流区1983年到1999年土地利用变化特征,结果表明:(1)与土地利用结构分析法相比,土地利用变化指数模型更能反映土地变化趋势及在时空上变化特点;(2)研究区土地利用程度不断提高,其中林地园地、耕地与城郊用地增加较快;(3)1983～1996年间的变化大于1996～1999年间的变化;(4)州政府所在地(香格里拉县、泸水县、丽江县)的变化较其它地区大;(5)土地利用变化的主要原因是社会经济因素,包括人口增长、科技进步、经济增长、传统文化继承与发展、政策变化等。     

Resident Attitudes to Farmland Protection Measures in the Northern Rivers Region,New South Wales

In-migration to popular ‘sea change’ and ‘tree change’ regions has produced conflicts between rural land users. In the Northern Rivers region of New South Wales, new residential developments have been built on much of what was previously prime agricultural land, while farmers (in particular, those negatively affected by the deregulation of the dairy industry) have sought to secure retirement incomes by subdividing land for sale. Although developers, local councils and individual farmers sometimes see eye to eye on the mutual benefits of in-migration and population growth, land use has none the less become the subject of a hotly contested local political battle. Conflicts occur at the interface of growing urban developments and surrounding farmland, with new residents finding the sights, sounds and smells of rural production intrusive. More generally, there is considerable concern that the best farmland in the region may be lost to urbanisation and rural residential subdivision. This paper discusses the results of a survey that collected opinions from local residents about the pressures on the region's land uses by in-migration, the future role of farmland as both an economic and cultural landscape, and views on proposed measures to protect prime farmland in the region. Results highlighted a strong and consistent ‘pro-farmland’ and ‘pro-protection’ attitude throughout the region, and across social groups. Yet, variations emerged when respondents were asked about why they attribute value to agricultural landscapes. For some, ‘economic’ values dominated, while for others, value was attributed in ways that reflected an emerging ethos of ‘localism’ and village lifestyle. Although values differed, a clear message from this study is that the population of Australia's pre-eminent ‘sea change’ region strongly support measures to curb urban development and the more destructive consequences of a dynamic property market.     

西藏"一江两河"地区生态环境地质问题与防治对策

从生态环境地质的角度出发，指出西藏“一江两河”地区由于生态环境条件脆弱、生态系统的不稳定，在缺乏生态屏障保护下，对资源的大量开发利用、天然植被的大量掠取，诱发和加重了一系列重大生态环境地质问题；有针对性地提出了生态地质环境保护措施和防治对策，并提供了典型实例和经验。