Linking Excess Nutrients,Light, and Fine Bedded Sediments to Impacts on Faunal Assemblages in Headwater Agricultural Streams1

Griffith, Michael B., F. Bernard Daniel, Matthew A. Morrison, Michael E. Troyer, James M. Lazorchak, and Joseph P. Schubauer‐Berigan, 2009. Linking Excess Nutrients, Light, and Fine Bedded Sediments to Impacts on Faunal Assemblages in Headwater Agricultural Streams. Journal of the American Water Resources Association (JAWRA) 45(6):1475‐1492. Abstract: Biological impairments in streams are typically defined by regulatory agencies in terms of altered invertebrate or fish assemblages. While nutrients, canopy cover, and sediment fines contribute to these impairments, these stressors are often defined, at least in part, by their impacts on periphyton. Path analysis can extend these assessments to impacts on invertebrates and fish by characterizing the direct and indirect relationships among variables along defined model pathways. With data from headwater tributaries in the Little Miami River, Ohio, we tested models of the impacts of nutrients [total nitrogen (TN), total phosphorus (TP), and the nitrogen to phosphorus (N/P) ratio], the percentage of (%) open canopy, and the % sand and fines on three periphyton metrics [periphytic ash‐free dry mass (AFDM), the percent abundance of cyanobacteria (% cyanobacteria), and the percent abundance of Chlorophyta (% Chlorophyta)] and, in turn, on selected invertebrate or fish metrics. Our objective was to develop and evaluate a statistical model that assesses the direct and indirect impacts of excess nutrients on macroinvertebrate and fish in these streams and demonstrate how this approach might be applicable elsewhere. The results suggest indirect pathways for the influences of nutrients, canopy cover, and fine bedded sediments on invertebrates or fish that are mediated by their influences on periphyton. This is in addition to any direct impacts of these stressors on the invertebrate and fish metrics. In most models, all three periphyton metrics increased with % open canopy. Periphytic AFDM increased with TN, while % cyanobacteria decreased. The % cyanobacteria also decreased with % sand and fines, but % Chlorophyta increased. The metrics, percent abundance of (%) three most dominant (macroinvertebrate) taxa, % Trichoptera, and % herbivorous fish all increased with periphytic AFDM, while % climbers, % swimmers, and %Lepomis cyanellus Rafinesque decreased. Lepomis cyanellus is an indicator species, because it is generally common in these streams and relatively tolerant to various common environmental stressors. The % three most dominant macroinvertebrate taxa increased while % Hydropsychidae (Trichoptera) and %L. cyanellus decreased with % cyanobacteria. The % Trichoptera and %L. cyanellus increased with % Chlorophyta. Some macroinvertebrate metrics, such as the % burrowers and number of burrower taxa, did not have any statistically significant relationships with the periphyton metrics but did exhibit a direct pathway with % sand and fines. These analyses illustrate how path analysis can be used to estimate the relationships among the variables in a conceptual model, modify the model, assess the relative importance of different paths, and explore responses resulting from stressors with interacting and indirect impacts.     

Estimating the removal of atmospheric particulate pollution by the urban tree canopy in Beijing北大核心CSCD

Urban green space, particularly the tree canopy, plays an important role in potential mitigation against atmospheric particulate pollution and protecting human health. In this study, current and future air particulate matter [including total suspended particulate (TSP), particulate matter 10 (PM10), and particulate matter 2.5 (PM2.5)] removal by the urban tree canopy of Beijing was estimated. A modeling approach was used based on the distributed measurement evaluation and a modified version. The urban tree canopy of Beijing, including mostly Platycladus sp., Pinus sp., Quercus sp., Robinia pseudoacacia, and economic forests, currently removes about 8.33 million kg/a air particulates, in which TSP accounted for 4.51 million kg/a, PM10 accounted for 2.74 million kg/a, and PM2.5 accounted for 1.08 million kg/a. The study on the removal of air particulates by different aged tree canopies showed that in coniferous trees, the ability to capture air particulates changed in the order of mature and over-mature > near-mature forest > young forest; in broadleaf forest, the ability changed in the order of near-mature forest > mature and over-mature > young forest. For total particulate matter, the biggest contribution was coarse particulates (60.74%); the contribution rate of fine particulates was different owing to different tree species groups. The results suggested that the ability of different trees to capture particles and age of forests varied widely and that suitable trees should be chosen to enhance pollution mitigation for city greening. © 2018 Science Press. All rights reserved.     

基于城市冠层模式的成都市静稳天气气象场模拟研究

目前城市气象场数值模拟结果与实际情况有一定误差.本文基于Landsat 8高分辨率遥感数据提取采用局地气候分区（LCZ）的城市下垫面,结合WRF模式自带下垫面分类建立了成都市精细分类下垫面,并利用WRF自带的城市冠层模式,设计了7种方案对成都市静稳天气的气象场进行了模拟分析,并结合实际监测数据对模拟结果进行了评估,对比分析了城市冠层模式和精细分类下垫面对成都市静稳天气带来的影响.研究发现：①精细化分类下垫面结合了USGS下垫面和局地气候分区数据的优势,较为准确的反映了成都的下垫面环境;②精细分类下垫面对建筑物的形态特征进行了描述,加大了地表粗糙度,能够模拟出建筑物对风的阻挡作用以及城市风场不连续、随机性强的特性;③城市冠层模式优化了静稳天气过程中城市风、温度和湿度的模拟结果,多层城市冠层模式的模拟结果优于单层城市冠层模式.因此,在成都市对污染物扩散不利的静稳天气使用多层城市冠层模式并结合精细分类下垫面将大大提高模拟精度,进而提高空气质量预报.     

下垫面输入资料对深圳气象场及大气扩散能力模拟的影响

区域气象模式的输入资料更替相对城市化发展的实际态势存在滞后,使得空气质量预报模型受气象场模拟性能限制而难以准确预报污染事件.本文以深圳市的WRF模拟为例,对模式土地利用输入资料、城市冠层输入参数进行改进,通过提高气象场的模拟能力,探究下垫面输入资料对深圳气象场及大气扩散能力模拟的影响.结果表明,土地利用输入资料的更新使得城市建成区类型格点模拟温度在1月下降了0.05℃,在4、7和10月分别上升了1.1、0.4和0.5℃;风速在1、4、7和10月分别下降了2.3、1.8、1.9和1.8 m·s^-1;相对湿度分别下降了16.1%、9.0%、14.4%和6.5%;感热通量分别升高了85.3、73.6、134.8和65.6 W·m^-2;潜热通量分别下降了65.9、39.5、118.3和45.7 W·m^-2.土地利用输入资料更新后,深圳市扩散指数在空气质量为"优"、"良"、"轻度污染"时段内,分别下降了约25%、20%、30%,风向变化因子分别约有5%、5%的降低和20%的升高;输入城市冠层参数后,扩散指数分别下降了约25%、15%、5%,风向变化因子分别约有5%的降低、5%和5%的升高.土地利用输入资料的更替和城市冠层参数的输入带来模拟能力的改进,更好地重现了一些复杂的边界层热动力结构,包括典型污染日午后深圳市上空南侧上升、北侧下沉的城市热岛环流和近地面的海风局地环流.     

EVAPOTRANSPIRATION AND CANOPY RESISTANCE AT AN UNDEVELOPED PRAIRIE IN A HUMID SUBTROPICAL CLIMATE1

ABSTRACT: Reliable estimates of evapotranspiration from areas of wildland vegetation are needed for many types of water-resource investigations. However, little is known about surface fluxes from many areally important vegetation types, and relatively few comparisons have been made to examine how well evapotranspiration models can predict evapotranspiration for soil-, climate-, or vegetation-types that differ from those under which the models have been calibrated. In this investigation at a prairie site in west-central Florida, latent heat flux (λE) computed from the energy balance and alternatively by eddy covariance during a 15-month period differed by 4 percent and 7 percent on hourly and daily time scales, respectively. Annual evapotranspiration computed from the energy balance and by eddy covariance were 978 and 944 mm, respectively. An hourly Penman-Monteith (PM) evapotranspiration model with stomatal control predicated on water-vapor-pressure deficit at canopy level, incoming solar radiation intensity, and soil water deficit was developed and calibrated using surface fluxes from eddy covariance. Model-predicted λE agreed closely with λE computed from the energy balance except when moisture from dew or precipitation covered vegetation surfaces. Finally, an hourly PM model developed for an Amazonian pasture predicted λE for the Florida prairie with unexpected reliability. Additional comparisons of PM-type models that have been developed for differing types of short vegetation could aid in assessing interchangeability of such models.     

A CONCEPTUAL FRAMEWORK FOR EVALUATING AGRICULTURAL WATER CONSERVATION POTENTIALS1

ABSTRACT: This paper defines types of water losses in irrigated agriculture and outlines potentials for water conservation. Recoverable water “losses” (seepage, leakage, and spillage during storage and conveyance, and surface runoff and deep percolation during irrigation) and irrecoverable losses (evaporation from water and soil surfaces and transpiration from plants) are described and illustrated. Some conservation terms are defined, particularly the distinction between on-farm irrigation efficiency and areawide efficiency. Briefly reviewed are agricultural water conservation technologies and their applicability. The biggest untapped potential for water conservation may be a reduction in irrecoverable losses, especially evapotranspiration. The advantages and disadvantages of reducing recoverable and irrecoverable water losses are described, including possible effects on ground water, energy, salinity, crops, wildlife, and in-stream uses. Such information may be useful in several policy and management issues, e.g., ground water overdraft and possible constraints on crops and sites to be irrigated.     

A PRELIMINARY QUANTIFICATION OF THE IMPACTS OF ASPEN TO CONIFER SUCCESSION ON WATER YIELD - I. HEAT PULSE METHODOLOGY FOR MODEL CALIBRATION1

ABSTRACT: Twenty-six aspen (Populus tremuloides Michx.), 20 subalpine fir (Abies lasiocarps (Hook.) Nutt.), and 20 Engelmann spruce (Pices engelmanil (Parry) Engelm.) of various sizes were cut under water and suspended in permanent reserviors at a northern Utah site. The reservoirs were asealed so that all water loss was due to consumption by the trees. Sap velocities, as computed from heat pulse velocities, were related to conducting areas of the tree trunks. Computed transpiration volumes were then correlated with actual water losses from the reservoirs. Coefficients of determination (R²) of 0.87, 0.86, and 0.82 were obtained for the fir, aspen, and sprucs, respectively. Reservoir water loss for each species for each season was then used to adjust a plant activity index for computing transpiration within ASPCON, a model describing the hydrology of aspen to conifer succession. The plant activity index reflects the variation in the capability of a plant community to transpire water over the year. Assumptions and limitations of the heat pulse velocity technique are also outlined.     

荔枝的光合特性

对糯米糍荔枝光合特性的研究结果表明，年平均蒸腾速率为８９３ｇＨ２Ｏ·ｍ－２·ｄ－１，净光合速率为６．５９ｇＣＯ２·ｍ－２·ｄ－１，蒸腾系数为２０２．２５ｇＨ２Ｏ·ｇＤＭ－１，对光合有效辐射能的利用率为１．９５％，说明了荔枝的光合性能和生产潜力。     

A Numerical Study for Turbulent Flow and Thermal Influence over Inhomogenous Canopy of Roughness Elements

A large-eddy simulation with transitional structure function(TSF) subgrid model we previously proposed was performed to investigate the turbulent flow with thermal influence over an inhomogeneous canopy, which was represented as alternative large and small roughness elements. The aerodynamic and thermodynamic effects of the presence of a layer of large roughness elements were modelled by adding a drag term to the three-dimensional Navier–Stokes equations and a heat source/sink term to the scalar equation, respectively. The layer of small roughness elements was simply treated using the method as described in paper (Moeng 1984, J. Atmos Sci. 41, 2052–2062) for homogeneous rough surface. The horizontally averaged statistics such as mean vertical profiles of wind velocity, air temperature, et al., are in reasonable agreement with Gao et al.(1989, Boundary layer meteorol. 47, 349–377) field observation (homogeneous canopy). Not surprisingly, the calculated instantaneous velocity and temperature fields show that the roughness elements considerably changed the turbulent structure within the canopy. The adjustment of the mean vertical profiles of velocity and temperature was studied, which was found qualitatively comparable with Belcher et al. (2003, J Fluid Mech. 488, 369–398)’s theoretical results. The urban heat island(UHI) was investigated imposing heat source in the region of large roughness elements. An elevated inversion layer, a phenomenon often observed in the urban area (Sang et al., J Wind Eng. Ind. Aesodyn. 87, 243–258)’s was successfully simulated above the canopy. The cool island(CI) was also investigated imposing heat sink to simply model the evaporation of plant canopy. An inversion layer was found very stable and robust within the canopy.     

Intra-specific variations of two Leymus chinensis divergence populations in Songnen Plain, Northeast China

ＩｎｔｒｏｄｕｃｔｉｏｎＴｈｅｉｎｔｒａ ａｎｄｉｎｔｅｒ ｓｐｅｃｉｆｉｃｖａｒｉａｔｉｏｎｓｏｆｐｌａｎｔｐｏｐｕｌａｔｉｏｎｓｈａｖｅｂｅｅｎｗｅｌｌｄｏｃｕｍｅｎｔｅｄｆｏｒｍａｎｙｐｌａｎｔｐｏｐｕｌａｔｉｏｎｓ (Ｂａｓｓｏｗ ,1 997;Ｃａｌｌａｗａｙ ,1 994;Ｄｅｌｐｈ ,1 993;Ｆｏｒｄ ,1 981 ;Ｊｏｎｅｓ,1 999;Ｍｏｎｓｏｎ ,1 989;Ｐａｖｏｎｅ ,1 985;Ｖａｖｒｅ,1 997) .Ｈｏｗｅｖｅｒ,ｍｏｓｔｏｆｔｈｅｓｔｕｄｉｅｓｆｏｃｕｓｅｄｏｎｉｎｔｅｒ ｓｐｅｃｉｆｉｃｖａｒｉａｔｉｏｎｓｉｎｍａｌ…