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1.
Water erosion of cropland constitutes an issue for natural environments along runoff flowpaths due to property damage by soil-laden water and the associated transfer of nutrients and pesticides. In the Pays de Caux region of northwestern France, the silty soils with crusting properties induce a high risk of runoff and erosion. Changes in agricultural practices, land use and landscape patterns appear to have increased the occurrence of erosion and mud flows over the past few decades.A runoff and erosion model called STREAM, applicable to single rainfall events at catchment scale, has been developed to simulate the impacts of land-use modifications. The model takes into account processes that degrade surface states when calculating infiltration rates, as well as agricultural aspects when computing the runoff circulation network. STREAM is based on an expert-system approach that focuses on the dominant processes whilst having only a few input parameters: three of these are used to determine the runoff circulation network, and the other four to calculate infiltration rates. Input nevertheless requires field observations, which restricts application of the model to small catchments.Satellite data covering large areas is considered as an alternative input for such a model, the main objectives being to adapt STREAM accordingly, and to compare the obtained results with field data. In view of previous work involving the extraction and validation of roughness indices using RADARSAT data, this study is based on RADARSAT and LANDSAT TM data collected during the winter of 1998.After adaptation to receive remote-sensing data, the resulting STREAM-TED model requires less input, namely (1) slope and orientation, (2) land-use classification from optical remote-sensing data, (3) roughness indices from radar remote-sensing data, and (4) previous rainfall.Runoff volumes at a gauged catchment outlet (Bourville in Upper Normandy, France) are simulated by four successive versions of the model ranging from the original STREAM to the adapted STREAM-TED. Predictions of the four versions are compared, and performance of the successive simulations is assessed in relation to measured values and according to five statistical indices.Predictions of runoff volume at the catchment outlet using STREAM-TED are similar to those using the original STREAM model, but with a tendency towards overestimation. The final STREAM-TED version is capable of identifying areas sensitive to runoff within a group of catchments and could be used as a planning decision tool in the implementation of conservation practices. 相似文献
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The Southern Pre-Pyrenees experienced a substantial land-use change over the second half of the 20th century owing to the reduction of agricultural activities towards the formation of a more natural forest landscape. The land-use change over the last 50 years with subsequent effects on water and sediment export was modelled with the process-based, spatially semi-distributed WASA-SED model for the meso-scale Canalda catchment in Catalonia, Spain. It was forwarded that the model yielded plausible results for runoff and sediment yield dynamics without the need of calibration, although the model failed to reproduce the shape of the hydrograph and the total discharge of several individual rainstorm events, hence the simulation capabilities are not yet considered sufficient for decision-making purposes for land management. As there are only a very limited amount of measured data available on sediment budgets with altered land-use and climate change settings, the WASA-SED model was used to obtain qualitative estimates on the effects of past and future change scenarios to derive a baseline for hypothesis building and future discussion on the evolution of sediment budgets in such a dryland setting. Simulating the effects of the past land-use change, the model scenarios resulted in a decrease of up to 75% of the annual sediment yield, whereas modelled runoff remained almost constant over the last 50 years. The relative importance of environmental change was evaluated by comparing the impact on sediment export of land-use change, that are driven by socio-economic factors, with climate change projections for changes in the rainfall regime. The modelling results suggest that a 20% decrease in annual rainfall results in a decrease in runoff and sediment yield, thus an ecosystem stabilisation in regard to sediment export, which can only be achieved by a substantial land-use change equivalent to a complete afforestation. At the same time, a 20% increase in rainfall causes a large export of water and sediment resources out of the catchment, equivalent to an intensive agricultural use of 100% of the catchment area. For wet years, the effects of agricultural intensification are more pronounced, so that in this case the intensive land-use change has a significantly larger impact on sediment generation than climate change. The WASA-SED model proved capable in quantifying the impacts of actual and potential environmental change, but the reliability of the simulation results is still circumscribed by considerable parameterisation and model uncertainties. 相似文献
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《CATENA》2010,80(3):288-296
The Southern Pre-Pyrenees experienced a substantial land-use change over the second half of the 20th century owing to the reduction of agricultural activities towards the formation of a more natural forest landscape. The land-use change over the last 50 years with subsequent effects on water and sediment export was modelled with the process-based, spatially semi-distributed WASA-SED model for the meso-scale Canalda catchment in Catalonia, Spain. It was forwarded that the model yielded plausible results for runoff and sediment yield dynamics without the need of calibration, although the model failed to reproduce the shape of the hydrograph and the total discharge of several individual rainstorm events, hence the simulation capabilities are not yet considered sufficient for decision-making purposes for land management. As there are only a very limited amount of measured data available on sediment budgets with altered land-use and climate change settings, the WASA-SED model was used to obtain qualitative estimates on the effects of past and future change scenarios to derive a baseline for hypothesis building and future discussion on the evolution of sediment budgets in such a dryland setting. Simulating the effects of the past land-use change, the model scenarios resulted in a decrease of up to 75% of the annual sediment yield, whereas modelled runoff remained almost constant over the last 50 years. The relative importance of environmental change was evaluated by comparing the impact on sediment export of land-use change, that are driven by socio-economic factors, with climate change projections for changes in the rainfall regime. The modelling results suggest that a 20% decrease in annual rainfall results in a decrease in runoff and sediment yield, thus an ecosystem stabilisation in regard to sediment export, which can only be achieved by a substantial land-use change equivalent to a complete afforestation. At the same time, a 20% increase in rainfall causes a large export of water and sediment resources out of the catchment, equivalent to an intensive agricultural use of 100% of the catchment area. For wet years, the effects of agricultural intensification are more pronounced, so that in this case the intensive land-use change has a significantly larger impact on sediment generation than climate change. The WASA-SED model proved capable in quantifying the impacts of actual and potential environmental change, but the reliability of the simulation results is still circumscribed by considerable parameterisation and model uncertainties. 相似文献
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L.&#x;O. Olang P.&#x;M. Kundu G. Ouma J. Fürst 《Land Degradation \u0026amp; Development》2014,25(3):267-277
The effects of conceptual land cover change scenarios on the generation of storm runoffs were evaluated in the Nyando Basin. The spatial scenarios represented alternatives that vary between full deforestation and reforestation. Synthetic storm events of depths 40, 60 and 80 mm were formulated according to the rainfall patterns and assumed to have durations corresponding to the runoff times of concentration. The Natural Resource Conservation Service–Curve Number model was used to generate runoff volumes within the sub‐catchments, which were subsequently routed downstream to obtain effects in the whole basin. The simulated land cover change impacts were evaluated relative to values obtained from the actual land cover state of the basin in the year 2000. From the results, an agricultural land cover scenario constituting of about 86 per cent of agriculture indicated increased runoff volumes in the entire basin by about 12 per cent. An agricultural‐forested land cover scenario with 40 and 51 per cent of forest and agriculture respectively revealed reduced runoff volumes by about 12 per cent. Alternatively, a scenario depicting a largely forested land cover state with about 78 per cent of forests reduced the runoff volumes by about 25 per cent according to the model estimates. Runoff volumes in the basin were also likely to reduce by about 15 per cent if the appropriate land cover scenario for the respective sub‐catchments were to be assumed for runoff management purposes. Considering the prevalent data uncertainty, the study effectively highlights the potential hydrological vulnerability of the basin. The results obtained can form a basis for appropriate catchment management of the area. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
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密云水库上游流域次降雨坡面产流产沙特征 总被引:4,自引:2,他引:4
以北京市密云县石匣小流域为研究区,利用2006-2010年连续5 a的坡面径流试验小区观测资料,运用统计方法,分析了密云水库上游流域的降雨、产流产沙特征以及在不同土地利用和不同坡度条件下,降雨量、降雨强度与产流、产沙之间的关系。结果表明:1)该研究区域水土保持治理措施实施的关键时间为每年的7、8月份,当降雨量大于10 mm时,应注意采取水土保持措施;2)在裸地、耕地和林地条件下,高雨量、中雨强型降雨为导致产流、产沙的主要雨型,在草地条件下,中雨量、高雨强型降雨为导致产流、产沙的主要雨型;3)中雨量高雨强型降雨条件下,林地的减流效益最好,低雨量低雨强型降雨和高雨量中雨强型降雨条件下,耕地的减流效益相对较低,草地和林地的减流效益差异不大;在3种不同雨型条件下,耕地、草地和林地的减沙效益差别不大;4)裸地条件下,降雨量与产流量间的关系更为密切,尤其在14.4°坡面下相关性最高;耕地条件下,产流量与降雨量的相关性较好,产沙量则与降雨强度的相关性较好,11.4°的坡面产流量、产沙量与降雨因子间的相关系数最高;草地条件下,降雨强度与产流量间的关系较为密切;林地条件下,产流量、产沙量与降雨因子间的相关性均不显著。研究结果可为密云水库上游水土保持措施及农业面源污染管理措施的科学实施提供依据。 相似文献
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粤北石漠化地区坡地入渗产流规律试验研究 总被引:2,自引:0,他引:2
在粤北山区石漠化地区的裸地、草坡地和耕地等3种类型土地的坡面上,采用0.3,0.48,0.72,1.08mm/min4种降雨强度进行了36场人工降雨模拟试验。结果表明:在岩溶发育的石漠化地区,受基岩的非均质性因素影响,出流过程均呈现出具有一定波动性质的较为曲折的峰谷相间的特点;初期波动性较大,后渐趋稳定;达到稳定的坡面径流量与雨强之间具有十分明显的线性正相关关系。3种土地利用类型的坡面径流量的增幅随雨强增大而显著增加;增幅最为明显的是裸地。其入渗率虽也随雨强的增加而增加,却在增幅上明显小于前者,其中,裸地的增幅最小,基本上能保持稳定。在土壤前期含水量影响较小的情况下,产流时间均随着雨强的增大而迅速缩短,表现为十分明显的幂函数关系,3种土地利用类型均需达到一定降雨量后才能产流。 相似文献
8.
为了确定不同坡度、土地利用类型及降水参数对水土流失的影响,通过黄土丘陵区坡耕地、草地的3个坡度(10°,15°和20°)小区连续14年的径流、侵蚀观测数据,分析不同坡度、土地利用模式和降水变化的水土流失分异。试验结果表明:1)坡耕地水土流失量随坡度的升高而增加,20°小区显著大于10°和15°小区;草坡地小区的年水土流失量也随坡度变化,不同坡度小区之间没有显著性差异。2)坡耕地与草地的水土流失量具有显著性差异,坡耕地年均径流量和侵蚀量分别为草地的1.8倍和13.9倍,与草地比较,坡耕地明显地增加水土流失风险。3)不同土地类型水土流失模数受年降水变化的影响效应不同。坡耕地水土流失量受少数强降水控制,年径流量、侵蚀量与年降水量、产流降水量之间无显著性相关;草地的年径流量、侵蚀量分别与年产流降水量、年降水量显著相关。4)坡耕地的水土流失受降水量(P)、最大30min降水强度(I30)和综合降水指数(PI30)的显著影响,但各因素的决定系数不同,影响系数次序为PI30>I30>P。草地的径流与降水变量关系与坡耕地一致,但次侵蚀量仅与I30变化的显著性影响,而与P、PI30无显著性相关。草地的水土流失量受坡度差异以及降水变化的影响较弱,表明草地能够有效地控制水土流失,对荒坡草地采取保护措施以促进植被、土壤的进展恢复。坡耕地水土流失变化与坡度、降水变量的关系更为直接,通过降低坡度、休耕和免耕等耕作模式,减少土壤扰动和增加地面植被盖度,可有效减少水土流失。 相似文献
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自然降雨条件下红壤坡面有机碳的选择性迁移 总被引:3,自引:0,他引:3
依托江西水土保持生态科技园,2015年3月―8月期间,对裸地、草地、果园和湿地松人工林四种类型径流小区自然降雨条件下侵蚀过程中径流泥沙和土壤有机碳的流失特征进行了原位监测。结果表明,监测期间24场降雨下,径流系数和侵蚀模数基本上均随雨型的增大而增加。随着土地利用类型由裸地向果园、草地和林地的转换,减流效益和减沙效益依次增大。径流量和泥沙流失量最主要的影响因素分别是降雨量和径流量。裸地、草地、果园和林地四种类型坡面上,自然降雨下土壤有机碳随泥沙迁移的比例分别为64.67%、47.38%、53.94%和36.03%,碳流失强度分别达到560.3、1.98、122.5和2.66 mg m-2。径流有机碳含量与径流量之间、泥沙含碳量与泥沙量之间均呈负相关关系。裸地、果园、草地和林地四种径流小区泥沙有机碳富集比分别为1.27、1.10、0.80和0.58,即随着土壤侵蚀模数的降低,有机碳富集比也减小。泥沙有机碳富集比均随雨强的增大而减小,有机碳的选择性迁移在低强度降雨条件下表现更为明显。 相似文献
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Soil erosion from sugar beet in Central Europe in response to climate change induced seasonal precipitation variations 总被引:2,自引:0,他引:2
This study estimates the implications of projected seasonal variations in rainfall quantities caused by climate change for water erosion rates by means of a modeling case study on sugar beet cultivation in the Central European region of Upper-Austria. A modified version of the revised Morgan–Morgan–Finney erosion model was used to assess soil losses in one conventional and three conservation tillage systems. The model was employed to a climatic reference scenario (1960–89) and a climate change scenario (2070–99). Data on precipitation changes for the 2070–99 scenario were based on the IPCC SRES A2 emission scenario as simulated by the regional climate model HadRM3H. Weather data in daily time-steps, for both scenarios, were generated by the stochastic weather generator LARS WG 3.0. The HadRM3H climate change simulation did not show any significant differences in annual precipitation totals, but strong seasonal shifts of rainfall amounts between 10 and 14% were apparent. This intra-annual precipitation change resulted in a net-decrease of rainfall amounts in erosion sensitive months and an overall increase of rainfall in a period, in which the considered agricultural area proved to be less prone to erosion. The predicted annual average soil losses under climate change declined in all tillage systems by 11 to 24%, which is inside the margins of uncertainty typically attached to climate change impact studies. Annual soil erosion rates in the conventional tillage system exceeded 10 t ha− 1 a− 1 in both climate scenarios. Compared to these unsustainably high soil losses the conservation tillage systems show reduced soil erosion rates by between 49 and 87%. The study highlights the importance of seasonal changes in climatic parameters for the discussion about the impacts of global climate change on future soil erosion rates in Central Europe. The results also indicate the high potential of adaptive land-use management for climate change response strategies in the agricultural sector. 相似文献
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Phosphorus losses from arable land in England 总被引:7,自引:0,他引:7
J. A. Catt K. R. Howse R. Farina D. Brockie A. Todd B. J. Chambers R. Hodgkinson G. L. Harris J. N. Quinton 《Soil Use and Management》1998,14(S4):168-174
Abstract. Concentrations and annual loadings of molyhdate reactive P (MRP) and total (including particulate) P (TP) are reported from field drainage, catchment and erosion experiments in England. Annual losses through field drains and in catchment runoff were 0.037-0.74 kg MRP/ha and 0.37-2.64 kg TP/ha, but those in surface runoff from experimental plots measuring erosion were generally much greater (often > 3 kg MRP/ha and up to 32 kg TP/ha in a wet year). Amounts of TP in drainflow and catchment runoff depended upon factors influencing soil dispersibility, such as particle size distribution and calcium carbonate content. The results to date suggest that P losses in surface runoff and erosion from arable fields to water are best limited by: (a) maximizing crop cover, using minimal cultivation practices and where possible planting crop rows across rather than up and down the slope, (b) avoiding cultivation practices that result in dispersion of soil particles, and (c) avoiding application of P fertilizer to wet soils when rainfall is likely soon after application. Consideration should he given to maintaining field drains below peak efficiency to reduce subsurface P losses. 相似文献
13.
华北土石山区水源保护林小流域土壤侵蚀过程的模拟研究 总被引:2,自引:0,他引:2
根据对试验流域土地利用现状的实地调查 ,在GIS技术的支持下 ,结合林冠截留模型、枯落物糙率系数模型、SCS水文模型、径流小区产沙量经验模型、栅格单元泥沙输移量模型 ,以试验流域空间数据库和属性数据库为基本参数输入 ,对试验流域 1996~ 1998年 8场典型降雨土壤侵蚀量的空间分布进行了模拟。模拟结果显示 ,裸荒地场降雨产沙量占场降雨侵蚀总量的 92 4 7%~ 10 0 % ,水源保护林地 (包括刺槐和油松林地 )的产沙量占总侵蚀量的 15 2 3%~ 7 5 3% ,水源保护林的土壤侵蚀控制效应非常显著。对试验流域 1997 0 7 31和 1998 0 7 0 5两场典型降雨径流量和侵蚀量的模型检验显示 ,模拟误差分别为 - 3 2 4 %、 10 %和 32 3%、 39 34%。 相似文献
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坡地开垦的径流泥沙响应 总被引:2,自引:0,他引:2
Land use and land cover change is a key driver of environmental change. To investigate the runoff and erosion responses to frequent land use change on the steep lands in the Three Gorges area, China, a rainfall simulation experiment was conducted in plots randomly selected at a Sloping Land Conversion Program site with three soil surface conditions: existing vegetation cover, vegetation removal, and freshly hoed. Simulated rainfall was applied at intensities of 60 (low), 90 (medium), and 120 mm h 1 (high) in each plot. The results indicated that vegetation removal and hoeing significantly changed runoff generation. The proportion of subsurface runoff in the total runoff decreased from 30.3% to 6.2% after vegetation removal. In the hoed plots, the subsurface runoff comprised 29.1% of the total runoff under low-intensity rainfall simulation and the proportion rapidly decreased with increasing rainfall intensity. Vegetation removal and tillage also significantly increased soil erosion. The average soil erosion rates from the vegetation removal and hoed plots were 3.0 and 10.2 times larger than that in the existing vegetation cover plots, respectively. These identified that both the runoff generation mechanism and soil erosion changed as a consequence of altering land use on steep lands. Thus, conservation practices with maximum vegetation cover and minimum tillage should be used to reduce surface runoff and soil erosion on steep lands. 相似文献
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Xenia Junge Petra Lindemann-Matthies Marcel Hunziker Beatrice Schüpbach 《Biological conservation》2011,(5):1430-1440
Beyond its traditional function of food production, agricultural land offers public amenities such as the protection of natural resources and landscape scenery. This study investigates the preferences of non-farmers and farmers for nine landscape scenarios in the Swiss lowlands. The nine landscapes were the result of a photo editing process combining three land-use types (arable crops, grassland and a mixture of both) and three proportions of ecological compensation areas (0%, 10% and 30%). The landscape photographs were randomly arranged on one page of a paper-based questionnaire which was sent to a random sample of 4000 Swiss households (non-farmers) and 500 farmers. The respondents (1376 non-farmers and 276 farmers) rated each landscape by attractiveness. Both non-farmers and farmers preferred a mixed land-use type or one dominated by arable crops over one dominated by grassland. Non-farmers’ preference ratings were highly influenced by the proportion of ecological compensation areas (ECAs) in the rated landscape: Non-farmers rated a landscape with a mixed land-use type and 30% ECAs highest, whereas farmers rated a landscape dominated by arable crops and 10% ECAs highest. The results indicate that heterogeneous landscapes (mixed land use, high proportion of ECAs) influence scenic beauty positively. Thus, farming practices and agro-environment schemes such as ECAs can have an impact on the visual attractiveness of a landscape. 相似文献
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M.A. Fullen 《Soil Use and Management》1991,7(3):136-138
Abstract. Runoff and erosion rates on loamy sand soils were measured at the Hilton experimental site, Shropshire. Little runoff and no erosion occurred on a steep runoff plot inserted into permanent grassland. Most precipitation infiltrated into the soil and was transmitted down slope as interflow within the Ah horizon. In contrast, considerable amounts of runoff and erosion occurred on the bare arable plots. These results suggest that incorporation of strips of permanent grassland into arable systems could assist soil and water conservation. Considering the high erosion rates on bare steep plots, conversion of slopes > 12° to permanent grassland seems appropriate. 相似文献
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不同立地条件下坡面水土流失的差异性试验研究 总被引:4,自引:0,他引:4
耕作活动和植被建设是人类活动的重要组成部分,以裸地、农地、草地和灌木林地(刚栽植)为研究对象,以人工降雨试验为研究手段,研究不同立地条件下的水土流失差异,并对坡面侵蚀形态进行分析.研究表明:草地的减水减沙作用最明显,坡面产生跌坎和细沟的时间最晚,与裸地相比,减少产沙量97.24%~99.63%、减少径流量62.04%~80.46%,受栽植活动扰动影响,刚栽植的灌木林地没有水土保持作用,且坡面上栽植密度越大水土流失越严重,坡面侵蚀沟贯通且呈宽深的“V”型;农地的水土流失与裸地相比与降雨强度有关,小雨强条件下农地产沙量和径流量均小于裸地,大雨强条件下产沙量和径流量大于裸地;因此科学栽植并做好耕作或植被建设活动期间的水土流失预防工作十分必要. 相似文献
18.
Purpose
Roadside ditches line more than 6.3 million km of roadways in the USA, dissecting the natural topography and altering the flow of runoff from the catchments that drain into them. In agricultural regions, more than 30% of a watershed may directly drain into the roadside ditch system. Quantifying soil erosion and sediment export from agricultural watersheds is a crucial component when considering long-term soil sustainability.
Materials and methodsOur study evaluated the relation of catchment soil erosion and ditch sedimentation at six representative roadside ditches in Lime Creek watershed (eastern Iowa) and quantified the effectiveness of possible catchment conservation practices to reduce soil erosion and ditch sedimentation.
Results and discussionStudy results provide clear evidence linking roadside ditches to the agricultural catchments that drain into them. Among the six ditch sites, catchment erosion was found to be inversely related to sediment storage within the ditch due to erosive power of water entering the ditches from their basins. Of four catchment scenarios to reduce soil erosion, no-till with cover and graded terrace did not require land to be taken out of production and provided the most significant reductions in catchment erosion rates.
ConclusionsResults indicated that reducing nutrient and sediment loads to ditches by incorporating in-field conservation practices in ditch catchments may be more economical and environmentally sustainable than current management practices for both farmers and roadway managers because they trap detached soil sediments before they enter the ditch.
相似文献19.
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Environmental magnetism, elemental chemistry, pollen, macrofossil, and radioisotopes were studied on top-metre cores from Ballydoo Lough, Connemara, western Ireland, to reconstruct the impact of changing farming practices on soil erosion in a lake catchment. Documentary evidence, including detailed agricultural statistics, gave an independent land-use history over the period represented in the sediment record, i.e. most of the last two centuries. Maximum soil erosion, which involved unweathered coarse material as well as topsoil, was associated with a rapidly rising rural population and increased arable activity during the early 19th century. The Great Famine (1845–1847) halved the population, but arable and especially pastoral farming quickly recovered and were maintained at a high level from the late 1850s until the late 1890s. During this time, the rate of soil erosion slowed down considerably and the contribution of coarse mineral material relative to topsoil declined. Erosion of peaty soils was less important as potato cultivation declined and the middle slopes of the catchment were no longer cultivated. From the end of the 18th century to the 1970s, sediment accumulation and erosion rates were less and progressive podzolisation occurred as pastoral and particularly arable farming declined. The uppermost sediments record a sharp increase in soil erosion, involving mainly organic-rich soils from the upper slopes. This increase is attributed to a sharp rise in livestock numbers, especially sheep. A feature of the pollen record is the high arboreal pollen representation (43%–66% of total terrestrial pollen), which consists mainly of secondary pollen. It indicates a substantial input of pollen-bearing organic detritus derived from peaty soils and peat cuttings in the catchment. 相似文献