降雨事件对上海地铁通勤客流时空影响的精细尺度研究

全球气候变化背景下,降雨事件日益增多,严重影响城市交通和居民的日常出行。本文以上海市为例,基于分时降雨数据和地铁OD客流数据,运用Prophet时序模型拟合降雨事件下的客流常态值,从站点和OD二个维度定量评估降雨造成的地铁通勤客流变化时空格局。研究结果表明：① 通勤客流总体随小时雨量增大而下降,不同类型站点客流的降雨波动性呈现差异;降雨会造成进站客流的时间滞后性和堆积性,通勤出行需求越大的站点类型堆积效应越显著;由于出发时间弹性差异,不同时点客流的降雨敏感性也不同,7:00和17:00敏感性较高,8:00—9:00和18:00—19:00则相对刚性;② 降雨会造成行程时间≤15 min的短距离客流显著上升,总体增加7.3%,中长距离客流变化不明显,总体减少1.3%;在不同功能区之间,早高峰居住型→产业型的客流波动和时间堆积性最为显著,晚高峰商服型→居住型的返程客流波动性较低;早高峰降雨敏感性线路的起始站点多分布在大型居住区,晚高峰则位于大型产业园区和商业中心;晚高峰返程客流的波动性低于早高峰。尽管降雨事件对通勤客流总量影响不明显,但会造成局部空间区域和时点的客流激增。本文的研究方法与结果有助于量化降雨对地铁通勤客流的影响程度,并为空间化的交通运行保障提供决策依据。     

Effects of Different Diets on the Dietary Attractability and Selectivity of Chinese Shrimp, Fenneropenaeus chinensis

Attractabilities of different diets and dietary selectivity of Chinese shrimp, Fenneropenaeus chinensis were studied through behavior observation and feeding experiment, respectively. The five diets used in the experiment are: Fish Flesh (FF), Shrimp Flesh (SF), Clam Foot (CF), Polychaete Worm (PW), and Formulated Diet (FD). No significant differences of attractability exist between any two different diets when every two natural diets or all five diets are provided simultaneously. On the other hand, significant differences of attractability exist between FD and every single natural diet when they are provided simultaneously. Results of behavioral observation indicate that natural diets are more attractive than FD. In feeding experiment, Chinese shrimp has distinct selectivity on different diets. It positively selects CF and PW, negatively selects FF and SF, and excludes FD absolutely. The results of the present studies indicate that the dietary selectivity of shrimp was based not only on the attractabilities of the diets, but also on the responses such as growth and food conversion.     

基于洪峰模数的山洪灾害雨量预警指标研究

山洪灾害预警是防御山洪的重要非工程措施,雨量预警指标是山洪灾害预警的关键。目前的雨量预警指标计算方法对水文气象资料条件以及模型建模率定都有很高的要求,并不适用于基层防汛人员。因此,本文基于全国山洪灾害调查评价成果数据,提出了一种运用洪峰模数计算雨量预警指标的简便、易用的方法。该方法以小流域洪水计算推理公式为基础,将公式中流量与流域面积的比值用洪峰模数表示,得到基于洪峰模数的临界雨量估算公式,并考虑流域土壤含水量等因素,分析临界雨量变化阈值,最终得到雨量预警指标。本文以云南省绥江县双河小流域为例,计算结果显示不同时段（1 h、3 h、6 h）净雨量和预警时段呈线性关系。降雨损失计算中洼地蓄水和植被截留在不同时段相同,土壤下渗在不同的时段不相同。在此基础上,计算不同土壤含水量条件下,不同时段的雨量预警指标。最后,对临界流量、降雨损失和预警指标进行了合理性分析,结果显示预警指标和调查评价结果及实测降雨都比较接近,计算的预警指标合理。本研究为基层山洪灾害预警提供了一种快速、便捷的预警指标计算方法,为预警指标计算提供技术支持。     

Effects of Different Diets on the Dietary Attractability and Selectivity of Chinese Shrimp,Fenneropenaeus chinensis

1Introduction Shrimp and crab have sensitive chemoreceptors andthey are chemosensitive to substances dissolved in wa-ter(Chen and Sun,1992;Chen,1995,1996a,1996b).This capability is crucial to their feeding behav-ior?.It has been found in shrimp and crab that alarge number of chemical substances and some con-tents distilled from their diets can activate their feed-ing responses.These kinds of chemical substances anddistilled content are defined as'food attractant'or'feeding stimulant'(Fuzessa…     

Interception of sulfate deposition from a closed canopy to a forest gap edge canopy in a subalpine dragon spruce plantation

Reducing the threats of sulfate ion(SO_4~(2-))deposition to terrestrial ecosystems is a great challenge.The canopy interception effect on SO_4~(2-)deposition has been well documented,but the interception efficiency of the gap edge remains unknown.Therefore,a subalpine dragon spruce(Picea asperata) plantation was evaluated in the upper reaches of the Yangtze River.The dynamics of the SO_4~(2-) concentration in the throughfall were investigated from the gap edge to the closed canopy during the rainfall and snowfall periods from August 2015 to July 2016.The annual input of SO_4~(2-) totaled 2.56 kg/ha through rainfall and 0.69 kg/ha through snowfall.The total annual net interception fluxes(NIFs) of SO_4~(2-) at the gap edge and in the closed canopy were 1.48 kg/ha and 0.66 kg/ha,respectively,and the net interception ratios(NIRs) accounted for 45.40% and 20.25%,respectively.The NIF and the NIR of SO_4~(2-) at the gap edge were higher than those in the closed canopy.Therefore,the results suggested that a significant amount of SO_4~(2-) deposition was intercepted by the tree canopy in the subalpine plantation,with more SO_4~(2-) deposition at the gap edge than in the closed canopy,which is beneficial for improving the water quality in the upper reaches of the Yangtze River via forest management.     

基于信息扩散理论的重庆北碚降水风险分析

为了解北碚地区的降水风险规律,减少地区旱涝引起的灾害损失.利用北碚区地面气象观测站的年降水观测资料（1981～2010年）,结合信息扩散理论模型,分析北碚地区的降水风险及成因.结果显示：（1）北碚地区降水的概率曲线为单峰型,峰值在1000～1100mm,夏季降水量离散程度比春、秋两季高,存在明显的旱季或涝季.（2）汛期降水量和年降水量的概率分布曲线趋势基本一致,也存在一些差异.（3）降水日分布特征显示雨量从21时开始增加,03时累积雨量为最大值,20时达到最低水平;降水频次从21时开始逐渐增加,并在08时达到最大.在暴雨小时降水量中5mm/h以下的降水次数最多,约占总次数的41％.     

Spatiotemporal Variation of Riverine Nutrients in a Typical Hilly Watershed in Southeast China Using Multivariate Statistics Tools

The water quality of lakes can be degraded by excessive riverine nutrients.Riverine water quality generally varies depending on region and season because of the spatiotemporal variations in natural factors and anthropogenic activities.Monthly water quality measurements of eight water quality variables were analyzed for two years at 16 sites of the Tianmuhu watershed.The variables were examined using hierarchical cluster analysis(HCA) and factor analysis/principal component analysis(FA/PCA) to reveal the spatiotemporal variations in riverine nutrients and to identify their potential sources.HCA revealed three geographical groups and three periods.Two drainages comprising towns and large villages were the most polluted, six drainages comprising widely distributed tea plantations and orchards were moderately polluted, and eight drainages without the factors were the least polluted.The river was most polluted in June when the first heavy rain(daily rainfall 50 mm) occurs after fertilization and the number of rainy days is most(monthly number of rainy days 20 days).Moderate pollution was observed from October to May, during which morethan 60% of the total nitrogen fertilizer and all of the phosphorus fertilizer are applied to the cropland, the total manure is applied to tea plantations and orchards, and a monthly rainfall ranging from 0 mm to 164 mm occurs.The remaining months were characterized by frequent raining(i.e., number of rainy days per month ranged from 5 to 24) and little use of fertilizers, and were thus least polluted.FA/PCA identified that the greatest pollution sources were the runoff from tea plantations and orchards,domestic pollution and the surface runoff from towns and villages, and rural sewage, which had extremely high contributions of riverine nitrogen, phosphorus,and chemical oxygen demand, respectively.The tea plantations and orchards promoted by the agricultural comprehensive development(ACD) were not environmentally friendly.Riverine nitrogen is a major water pollution parameter in hilly watersheds affected by ACD, and this parameter would not be reduced unless its loss load through the runoff from tea plantations and orchards is effectively controlled.     

2002～2018年中国七大流域水储量变化及时空分布特征

基于 GRACE 重力卫星反演2002～2018年中国七大流域的水储量变化。研究表明,中国陆地水储量变化存在明显的地域分布特征,辽河、海河、黄河和淮河流域水储量总体上呈递减趋势,年均减少速率分别为-0.54±0.9 mm/a、-5.96±0.6 mm/a、-2.65±0.8 mm/a 和-1.94±1.2 mm/a。在海河流域,地下水严重超采导致水储量明显减少;松花江、长江、珠江流域水储量呈显著增加趋势,年均增长速率分别为4.52±1.1 mm/a、3.84±0.7 mm/a、4.87±1.1 mm/a。流域水储量峰值一般晚于最大降雨量月份,这是因为降雨转换为陆地水储量需要一定时间。     

利用GRACE监测中国区域干旱及其影响因素分析

利用2003-01~2012-12的GRACE时变地球重力场模型计算我国长江中下游平原、西南地区和华北平原陆地水储量变化的时间序列。结果表明,长江中下游平原和华北平原的陆地水储量变化量最低值在2011-05,西南地区最低值在2010-03。根据陆地水储量变化的水平衡原理计算3个区域地下水储量变化情况。结果表明,长江中下游平原和西南地区地下水储量呈缓慢增长的趋势,增长速率分别为0.54 mm/月和0.34 mm/月;华北地区呈缓慢减小的趋势,减小速率为0.33 mm/月。3个区域干旱时期地下水储量的亏损情况分别为：长江中下游平原-21.31 mm/月,华北平原-19.88 mm/月,西南地区-15.72 mm/月。最后,用NOAA发布的月降雨和气温数据对3个区域干旱期间的降雨量和蒸发量进行量化,分析3次干旱产生的原因。结果表明,西南地区2010年春季干旱的主要原因是气温异常,长江中下游平原和华北平原2011年干旱的主要原因是降雨量偏少。     

The suitability of using leaf area index to quantify soil loss under vegetation cover

Soil erosion by water under forest cover is a serious problem in southern China. A comparative study was carried out on the use of leaf area index (LAI) and vegetation fractional coverage (VFC) in quantifying soil loss under vegetation cover. Five types of vegetation with varied LAI and VFC under field conditions were exposed to two rainfall rates (40 mm h⁻¹ and 54 mm h⁻¹) using a portable rainfall simulator. Runoff rate, sediment concentration and soil loss rate were measured at relatively runoff stable state. Significant negative exponential relationship (p < 0.05, R² = 0.83) and linear relationship (p < 0.05, R² = 0.84) were obtained between LAI and sediment concentration, while no significant relationship existed between VFC and sediment concentration. The mechanism by which vegetation canopy prevents soil loss was by reducing rainfall kinetic energy and sediment concentration. LAI could better quantify such a role than VFC. However, neither LAI nor VFC could explain runoff rate or soil loss rate. Caution must be taken when using LAI to quantify the role of certain vegetation in soil and water conservation.     

Stormwater runoff pollution in a rural township in the hilly area of the central Sichuan Basin, China

Stormwater runoff in rural townships has a high potential for water quality impairment but little information is available on strormwater runoff pollution from rural townships.To investigate the characteristics of runoff pollution in a rural township,a catchment(2.32 ha) in Linshan Township,Sichuan,China was selected to examine runoff and quality parameters including precipitation,flow rate,and total nitrogen(TN),dissolved nitrogen(DN),total phosphorus(TP),dissolved phosphorus(DP),particulate phosphorus(PP),chemical oxygen demand(COD) and suspended solid(SS) in 12 rainfall events occurring between June 2006 and July 2007.Results show that the annual pollutant loads were 47.17 kg ha-1 for TN,6.64 kg ha-1 for TP,1186 kg ha-1 for COD,and 4297 kg ha-1 for SS.DN and PP were the main forms of nitrogen and phosphorus in stormwater runoff.TP,COD and SS showed medium mass first flushes,in which nearly 40% of the total pollutant masses were transported by the first 30% of total flow volume.The peak of pollutant concentration appeared before the peak of runoff due to the first flush of accumulative pollutants in impervious areas and drainage ditches.The EMC values of TN,TP,DN and PP were negatively correlated to the maximum rainfall intensity,precipitation,total flow volume,and runoff duration(P<0.05,n=12),while EMC of COD and SS were not related to any rainfall characteristics.The FF30(FF,First Flush) for TN,TP,COD and SS were positively correlated to the maximum rainfall intensity(P<0.05,n=12),and TP was also positively correlated to the average rainfall intensity(P<0.05,n=12),indicating that the magnitude of first flush increased with the rainfall intensity in the Linshan Township.     

企鹅珍珠贝人工苗生长的初步观察

为了解企鹅珍珠贝生长规律，观察了壳高2.5～5.0mm的出池幼苗，按月测量其生长参数和成活率，以及环境因子。结果表明，企鹅珍珠贝生长最快的月份为7～11月和次年4～6月，壳长，壳高和壳宽月均增加量分别为3.8～13.0mm、4.7～11.2mm、2.3～3.8mm，月成活率97.8%～98.6%。企鹅珍珠贝生长最慢月份是11月至次年3月。     

Structure and regeneration dynamics of three forest types at different succession stages of spruce – fir mixed forest in Changbai Mountain,northeastern China

Analyzing and understanding the structure and growth dynamics of forests at different stages is helpful to promote forest succession, restoration and management. Three spots representing three succession stages of spruce-fir mixed forest(SF: polar-birch secondary forest, MF: spruce-fir mixed forest and PF: spruce-fir near primary forest) were established. Structure, growth dynamics during two growth seasons for dominant tree species, regeneration were examined, and a univariate O-ring function statistic was used to analyze the spatial patterns of main regeneration tree species. Results showed that,(1) composition of tree species, periodic annual increment(PAI) of the diameter at breast height(DBH), basal area for overstory trees and of ground diameter(DGH) for saplings, were significantly different with the succession;(2) the current species composition and regeneration dynamics of SF suggested a development towards spruce-fir mixed forests. Pioneer species like Betula platyphyllaa will gradually disappear while climax species, such as Abies nephrolepis, Pinus koraiensis, Picea koraiensis and Tilia amurensis will dominate forest stands;(3) Despite the highest volume occurring in PF, and saplings in it grew better than in the others, this forest type is unstable because of its unsustainable structure of DBH class and insufficient regeneration; and(4) MF had the most reasonable distribution of DBH class for adult trees(DBH 5.0 cm) and DGH class for saplings(H ≥30 cm and DBH ≤5 cm), as well as an optimal volume increment. Limiting canopy opening size can lessen the physiological stress and promote the growth and competitive status of regeneration. Management implications for increasing the gaps and thus creating better growth conditions for understory saplings and facilitating forest succession were discussed.     

Root growth dynamics during recovery of tropical mountain forest in North-east India

Ever increasing pressures on tropical forests worldwide due to anthropogenic disturbances have greatly affected both above-and belowground functioning of these forests.While fine roots play major ecological roles in forests through assisting in nutrient and water uptake and returning elements to the soil environment,coarse roots play an important role in C sequestration.We studied changes in fine and coarse root biomass,production,turnover and carbon and nitrogen return to the soil in two regenerating forest stands(RFs)following stonemining that were 5 years(RF-5)and 15 years(RF-15)post-disturbance compared with a natural forest stand(NF)in Mizoram,North-east India.Fine(2mm)and coarse root(2-10 mm)biomass differed significantly among the forest stands and ranged from239(RF-5)to 415(NF)and 230(RF-5)to 436(NF)g m 2,respectively.Total root(fine+coarse)biomass increased during stand development but the proportion of very fine root(0.5 mm)to total root production decreased.Fine root biomass decreased with increasing soil depth.Fine and total root biomass showed strong seasonal correlations with soil moisture,more so than for rainfall and temperature,whereas these relationships were less clear for the coarse root biomass.The amount of N(25-55 kg ha~(-1))and C(1.9-3.6t ha~(-1))stored in root biomass increased with stand age with a corresponding increase in production and turnover of C and N to the soil.Disturbance to these tropical forests negatively affected root dynamics,influenced their spatiotemporal patterns,and reduced the production,amount and availability of nutrients returned to the soil along with a strong reduction in the root biomass carbon pool and sequestration in carbon residence time.We observed that root growth,especially fine roots,is dependent on abiotic variables,and plays a significant role in early stages of secondary succession by adding organic matter and nutrients through high turnover rates in these forests.     

EVAPOTRANSPIRATION OF LOW-LYING PRAIRIE WETLAND IN MIDDLE REACHES OF HEIHE RIVER IN NORTHWEST CHINA

1 IN T R O D U C T IO NW aterbalance and interactions are foundation to utilizew aterresources rationally in arid inland river basins inC hina (W U etal.,2005).W ateravailability in those ar-eas m ay be the m ain constraint to poverty alleviation,publiche…     

Spatial-temporal variability of throughfall in a subtropical deciduous forest from the hilly regions of eastern China

Throughfall variability plays a crucial role in regulating hydrological and biogeochemical processes in forest ecosystems. However, throughfall variability and its potential influencing factors remain unclear in the subtropical deciduous forest because of its complex canopy and meteorological conditions. Here, the spatial variability and temporal stability of throughfall were investigated from October 2016 to December 2017 within a deciduous forest in the subtropical hilly regions of eastern China, and the effects of meteorological variables and distance from nearest tree trunk on throughfall variability were systematically evaluated. Throughfall variability during the leafed period was slightly higher than that during the leafless period inferred from the coefficient of variation of throughfall amounts(CVTF), with 13.2%-40.9% and 18.7%-31.9%, respectively. The multiple regression model analysis suggested that the controlling factors of throughfall variability were different in studied periods: Maximum 10-min rainfall intensity, wind speed and air temperature were the dominant influencing factors on throughfall variability during the leafed period, with the relative contribution ratio(RCR) of 25.9%, 18.7% and 8.9%, respectively. By contrast, throughfall variability was affected mainly by the mean rainfall intensity(RCR=40.8%) during the leafless period. The temporal stability plots and geostatistical analysis indicated that spatial patterns of throughfall were stable and similar among rainfall events. Our findings highlight the important role of various meteorological factors in throughfall variability and are expected to contribute to the accurate assessment of throughfall, soil water and runoff within the subtropical forests.     

食物类型和浓度对双齿许水蚤摄食的影响

在不同饵料条件下,对双齿许水蚤(Schmackeria dubin)的清滤率(mL.只-1.h-1)、滤食率(细胞.只-1.h-1)和摄食率(mg.只-1.h-1)进行了测定。结果表明:以湛江等鞭金藻(Isochrysis zhanjiangensis)为饵料,其浓度为15×104～120×104 mL-1时,双齿许水蚤的摄食率达到较大;分别饲以同生物量的牟氏角毛藻(Chaetoceros müelleri)、亚心形扁藻(Platymonas subcordiformis)、湛江等鞭金藻、小球藻(Chlorella sp.)时,饵料为角毛藻和扁藻时双齿许水蚤的摄食率达到较大;饲以同生物量的牟氏角毛藻、亚心形扁藻、湛江等鞭金藻、小球藻、颤藻(Oscillatoria sp.)、小环藻(Cyclotella sp.)六种藻的混合饵料时,双齿许水蚤对湛江等鞭金藻的摄食率和选食率均为最大,分别为0.0458 mg.只-1.h-1和17.1%。可见,饵料浓度、饵料种类、混合饵料对双齿许水蚤的清滤率和摄食率均有显著影响(P<0.05)。     

云斑尖塘鳢幼鱼摄食特性的初步研究

研究了云斑尖塘鳢(Oxyeleotris marmorata)幼鱼的摄食特性。结果表明:在幼鱼阶段,云斑尖塘鳢的摄食方式为主动掠食;个体全长10mm的日摄食量约为体重的11.66%,40mm的日摄食量约为体重的51.04%,69mm的日摄食量约为体重的55.30%;日摄食量与幼鱼全长呈正相关关系:A=11.3577+0.7664L(r=0.876);云斑尖塘鳢幼鱼的适口饵料鱼全长为其全长的25%～50%,幼鱼摄食15～17h后可完全消化饵料鱼;云斑尖塘鳢幼鱼昼夜摄食节律明显,一昼夜出现一个摄食高峰,高峰时段为19:00-01:00。     

Contribution of aboveground litter to soil respiration in <Emphasis Type="Italic">Populus davidiana</Emphasis> Dode plantations at different stand ages

Soil respiration from decomposing aboveground litter is a major component of the terrestrial carbon cycle. However, variations in the contribution of aboveground litter to the total soil respiration for stands of varying ages are poorly understood. To assess soil respiration induced by aboveground litter, treatments of litter and no litter were applied to 5-, 10-, and 20-year-old stands of Populus davidiana Dode in the sandstorm source area of Beijing-Tianjin, China. Optimal nonlinear equations were applied to model the combined effects of soil temperature and soil water content on soil respiration. Results showed that the monthly average contribution of aboveground litter to total soil respiration were 18.46% ± 4.63%, 16.64% ± 9.31%, and 22.37% ± 8.17% for 5-, 10-, and 20-year-old stands, respectively. The relatively high contribution in 5- and 20-year-old stands could be attributed to easily decomposition products and high accumulated litter, respectively. Also, it fluctuated monthly for all stand ages due to substrate availability caused by phenology and environmental factors. Litter removal significantly decreased soil respiration and soil water content for all stand ages (p < 0.05) but not soil temperature (p > 0.05). Variations of soil respiration could be explained by soil temperature at 5-cm depth using an exponential equation and by soil water content at 10-cm depth using a quadratic equation, whereas soil respiration was better modeled using the combined parameters of soil temperature and soil water content than with either soil temperature or soil water content alone. Temperature sensitivity (Q ₁₀) increased with stand age in both the litter and the no litter treatments. Considering the effects of aboveground litter, this study provides insights for predicting future soil carbon fluxes and for accurately assessing soil carbon budgets.     

1980-2015年黄河流域降雨侵蚀力时空变化分析

本文利用1980-2015年黄河流域及周边166个气象站点36 a的降雨资料,采用日降雨侵蚀力计算模型,对克里金插值后的栅格数据,通过利用主成分分析法、isodata聚类和最大似然法实现区域划分,并在此基础上应用重心模型研究了黄河流域降雨侵蚀力的时空变化。研究结果表明：黄河流域内不同区域的年降雨侵蚀力差异较大,最小的区域在200 MJ·mm·hm^-2·h^-1左右变化,最大的区域可达3000 MJ·mm·hm^-2·h^-1,年降雨侵蚀力具有由西北向东南递增的趋势。年降雨侵蚀力大的区域其侵蚀力值在不同年份中波动范围也大。西宁、呼和浩特等所在的一区、二区和三区的年降雨侵蚀力的重心总体上呈现向东北方迁移趋势。太原、西安所在的四区、五区其重心总体上呈现向西南方迁移趋势,其年降雨侵蚀力重心迁移范围小,重心点分布更紧密。各区域年降雨侵蚀力重心的迁移范围在空间和时间尺度上总体呈现由西北向东南方向逐渐缩小趋势。