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1.
Estimation of areas of sand and dust emission in the Hexi Corridor from a land cover database: an approach that combines remote sensing with GIS 总被引:1,自引:0,他引:1
The present study combined remote sensing with geographical information system (GIS) technology to interpret Landsat TM images
from 1996 to 2000 and establish a land cover database for the Hexi Corridor of China’s Gansu Province. The areas of sand and
dust emission and trends in their change were extracted by analyzing the database, with the following results: In 2000, the
source area for sand and dust storms totaled nearly 170,000 km2, accounting for 75.1% of the study region. The emission area decreases from as much as 70,000 km2 in winter and spring to around 58,000 km2 in summer and autumn, accounting for 41.1 and 34.1% of the source area, respectively. During the 4 years of the study period,
the emission area decreased by nearly 57 km2 in winter and spring (a 0.1% change); however, the vulnerability of the land surface to wind erosion increased in ca. 190 km2 and decreased in ca. 102 km2. Although the area of dust emission decreased from 1996 to 2000, the area vulnerable to wind erosion increased by ca. 87 km2, and the increased number of sand and dust storm days in the region between 2000 and 2003 appears to be correlated with this
increase. 相似文献
2.
Characteristics of high impact weather and meteorological disaster in Shanghai,China 总被引:3,自引:2,他引:1
This paper discusses the characteristics of high-impact weather events based on available data during 1960–2009, including
the frequency and extreme value of rainstorm, typhoon, thunderstorm, strong wind, tornado, fog, haze and hot days in Shanghai,
China. The frequency and spatial distribution of meteorological disasters and their impacts on both human and property during
1984–2009 are also discussed. Examination of the frequency indicates a decreasing trend in the occurrence of typhoon, thunderstorm,
strong wind, tornado and fog, and an increasing trend in the occurrence of rainstorm, haze and hot days. The number of casualties
caused by meteorological disasters appears to show a slight decreasing trend while the value of direct economic loss is increasing
slightly during 1984–2009, and the number of collapsed or damaged buildings and the area of affected crops have no significant
trend in Shanghai. These results can be attributed to the great efforts for prevention and mitigation of meteorological disasters
made by Shanghai government in recent 60 years. With global climate change, urbanization and rapid economic development, Shanghai
has become more vulnerable to high-impact weather and meteorological disaster, especially precipitation extreme, summer high
temperature, haze and typhoon, so more strategies of mitigation and/or adaptation of natural disasters are quite useful and
necessary for local government and the public in the future. 相似文献
3.
The spatiotemporal evolution of sea ice of Bohai Sea in the 2009–2010 winter was studied by time-series remote sensing data,
and real-time meteorological data in combination with cumulative freezing degree days (CFDD). Sea ice acreage was determined
using a ratio-threshold segmentation together with visual interpretation of daily MODIS 250 m imagery. We found the sea ice
acreage soared to 31,849 km2 on January 23, covering 40.8% of the Bohai Sea. But on February 12, it reached 26,700 km2 in Liaodong Bay only, covering almost 90.0% of Liaodong Bay. The rapid formation and expansion of sea ice was caused by continuous
cold snaps superimposed on a background of anomalously cold weather. CFDD calculated from surrounding cities highly correlated
with sea ice acreage in Liaodong Bay (R
2 = 0.72) suggesting CFDD is one of the significant controlling factors. Sea ice expansion showed 7 days lag with respect to
the lowest temperature from surrounding coastal cities, and it mainly occurred close to land, along the coastline, and gradually
expanded from the shore outwards. 相似文献
4.
Stanley A. Changnon 《Natural Hazards》2011,59(2):1175-1187
High winds are one of the nation’s leading damage-producing storm conditions. They do not include winds from tornadoes, winter
storms, nor hurricanes, but are strong winds generated by deep low pressure centers, by thunderstorms, or by air flow over
mountain ranges. The annual average property and crop losses in the United States from windstorms are $379 million and windstorms
during 1959–1997 caused an average of 11 deaths each year. Windstorms range in size from a few hundred to hundreds of thousands
square kilometers, being largest in the western United States where 40% of all storms exceed 135,000 km2. In the eastern United States, windstorms occur at a given location, on average, 1.4 times a year, whereas in the western
US point averages are 1.9. Midwestern states average between 15 and 20 wind storms annually; states in the east average between
10 and 25 storms per year; and West Coast states average 27–30 storms annually. Storms causing insured property losses >$379 million and windstorms
during 1959–1997 caused an average of 11 deaths each year. Windstorms range in size from a few hundred to hundreds of thousands
square kilometers, being largest in the western United States where 40% of all storms exceed 135,000 km2. In the eastern United States, windstorms occur at a given location, on average, 1.4 times a year, whereas in the western
US point averages are 1.9. Midwestern states average between 15 and 20 wind storms annually; states in the east average between
10 and 25 storms per year; and West Coast states average 27–30 storms annually. Storms causing insured property losses >1
million, labeled catastrophes, during 1952–2006 totaled 176, an annual average of 3.2. Catastrophic windstorm losses were
highest in the West and Northwest climate regions, the only form of severe weather in the United States with maximum losses
on the West Coast. Most western storms occurred in the winter, a result of Pacific lows, and California has had 31 windstorm
catastrophes, more than any other state. The national temporal distribution of catastrophic windstorms during 1952–2006 has
a flat trend, but their losses display a distinct upward trend with time, peaking during 1996–2006. 相似文献
5.
A. J. Litta U. C. Mohanty S. Kiran Prasad M. Mohapatra Ajit Tyagi S. C. Sahu 《Natural Hazards》2012,61(3):1219-1242
A severe thunderstorm produced a tornado (F3 on the Fujita-Pearson scale), which affected Rajkanika block of Kendrapara district
of Orissa in the afternoon of March 31, 2009. The devastation caused by the tornado consumed 15 lives and left several injured
with huge loss of property. The meteorological conditions that led to this tornado have been analyzed. An attempt is also
made to simulate this rare event using Non-hydrostatic Mesoscale Model (NMM) core of the Weather Research and Forecasting
(WRF) system with a spatial resolution of 4 km for a period of 24 h, starting at 0000 UTC of March 31, 2009. The atmospheric
settings resulted from synoptic, surface, upper air, satellite and radar echo studies were favorable for the occurrence of
a severe thunderstorm activity over Rajkanika. The model-simulated meteorological parameters are consistent with each other,
and all are in good agreement with the observation in terms of the region of occurrence of the intense convective activity.
The model has well captured the vertical motion. The core of the strongest winds is shown to be very close to the site of
actual occurrence of the event. The wind speed is not in good agreement with the observation as it has shown the strongest
wind of only 20 ms−1, against the estimated wind speed of 70 ms−1. The spatial distributions as well as intensity of rainfall rates are in good agreement with the observation as model simulated
35.4 mm against the observed rainfall of 41 mm over Chandbali. The results of these analyses demonstrated the capability of
high-resolution WRF–NMM model in simulation of severe thunderstorm events. 相似文献
6.
The scope of this study is to evaluate the parameters of the gypsum–anhydrite strata karstification under the influence of
the quarry exploitation of Jaziv sulphur field (West Ukraine) accompanying by drainage. The quarry drainage provoked the enormous
depression cone forming with 100 km2 in area and the corresponding intensification of chemical denudation of the gypsum–anhydrite strata. The gypsum karstification
rate for the 29-year period of the quarry drainage was 0.06% with the dissolved rock volume of 1,328,507 m3 that is about 80 times higher than in natural conditions. For the drainage period (29 years) the karst denudation rate was
17,952 m3/km2 against the natural background of 231.3 m3/km2. The absolute value of artificial denudation for the studied massif area is 1.79 cm for 29 years or 0.062 mm/year while the
denudation rate under natural conditions would be 0.231 cm for 29 years or 0.0008 mm/year. The forecasted volumes of the surface-evident
collapses are evaluated using the relationship between the calculated amount of dissolved sulphate rocks and volumes of the
current surface-evident collapses. According to this evaluation, the current collapses correspond to about 34% only from the
dissolved rocks volume calculated for the drainage period. 相似文献
7.
The Siruyeh landslide occurred at the eastern side of the Siruyeh valley, 22 km west of Semirom city, south of Esfahān on
25th March, 2005 with large dimensions (2,400 m long, 450 m wide with total area of 1 km2). The sliding mass blocked the Siruyeh River making a 35-m-high natural dam and 6-acre lake 570,000 m3 in volume that poses a potential threat for the area. The landslide occurred in soil and intensely weathered marls of the
Tarbur and Kashkan Formations (upper Cretaceous–Paleocene age). The overall comparison and interpretation of the gathered
evidence from satellite images, field trips, and laboratory tests show that the most important factors involved in triggering
the Siruyeh landslide in order of importance are heavy precipitation and snow melt and intense concentration of faults and
fractures as well as weathered and weak lithology. 相似文献
8.
Adriana Zingone Laurent Dubroca Daniele Iudicone Francesca Margiotta Federico Corato Maurizio Ribera d’Alcalà Vincenzo Saggiomo Diana Sarno 《Estuaries and Coasts》2010,33(2):342-361
The climatology and interannual variability of winter phytoplankton was analyzed at the Long Term Ecological Research Station
MareChiara (LTER-MC, Gulf of Naples, Mediterranean Sea) using data collected from 1985 to 2006. Background winter chlorophyll
values (0.2–0.5 μg chl a dm−3) were associated with the dominance of flagellates, dinoflagellates, and coccolithophores. Winter biomass increases (<5.47 μg
chl a dm−3) were often recorded until 2000, generally in association with low-salinity surface waters (37.3–37.9). These blooms were
most often caused by colonial diatoms such as Chaetoceros spp., Thalassiosira spp., and Leptocylindrus danicus. In recent years, we observed more modest and sporadic winter biomass increases, mainly caused by small flagellates and small
non-colonial diatoms. The resulting negative chl a trend over the time series was associated with positive surface salinity and negative nutrient trends. Physical and meteorological
conditions apparently exert a strict control on winter blooms, hence significant changes in winter productivity can be foreseen
under different climatic scenarios. 相似文献
9.
Laura Carrillo Emilio Palacios-Hernández Mario Yescas Ana María Ramírez-Manguilar 《Estuaries and Coasts》2009,32(5):906-916
Salinity profiles and meteorological data were analyzed during February, May, and September 2006 in Chetumal Bay, a large,
shallow estuary of the Western Caribbean. Local meteorological conditions revealed three seasons: (1) a dry season (March–May);
(2) a wet season (June–October); and (3) the nortes season, with northerly wind events (October–February). During the nortes
and wet seasons, salinity ranged between 13 and 16 psu, and salinity was highest in the dry season, ranging between 18 and
22 psu over most of the area; a strong stratification and a significant contribution of salty water characterized this season.
Strong horizontal gradients were observed near Rio Hondo during the three seasons. Deep and narrow peculiar bathymetric features
called the pozas showed a strong stratification and a relatively high salinity. The northern part of Chetumal Bay and probably
the entire system are far from being homogeneous. 相似文献
10.
We report the dissolved major element, organic carbon, and δ13CDOC, δ13CPOC, δD, δ18O, and 87Sr/86Sr composition of 19 summer samples from the Amur River. The Amur transported 2.6 Tg C/year of total organic carbon to the
Sea of Okhotsk. The physical weathering rate (PWR) based on suspended particulate material was 13 (1.4–14) tons/(km2 year), and the chemical weathering rate based on total dissolved solids was 7 (4.3–46) tons/(km2 year). We further quantified the sources of the dissolved cations using an inverse model: rain accounted for 2 (0.6–5)%,
evaporite 3 (0.7–7)%, carbonate 51 (29–74)%, and silicate 45 (25–64)%. The silicate weathering rate (SWR) in the Amur basin
was 23 (15–98) × 103 mol/(km2 year) or 0.67 (0.40–2.81) tons/(km2 year), comparable to those of the Siberian rivers and the Mackenzie at higher latitudes. The SWR of the Amur was negatively
correlated with elevation and relief, and positively correlated with runoff. 相似文献
11.
The Thornthwaite Memorial, Synthetic, and Carnegie Ames Stanford Approach (CASA) models, with inputs from SPOT-VGT-S10 NDVI
data, meteorological data (precipitation, temperature, solar radiation), and land use data were used to estimate the values
of net primary productivity (NPP) from 1999 to 2007 in China’s Shiyanghe Basin. The human appropriation of NPP, which represents
the difference between potential NPP predicted using the climatic models and actual NPP calculated using the CASA model, served
as the indicator of human intervention in the evolution of productivity of the land. Analysis showed that 78.9% (~9,172 km2) of the degradation occurring in the Shiyanghe Basin was caused by human activities versus 15.0% (~1,752 km2) that was caused by climatic factors, whereas 16.9% (~6,404.5 km2) of the vegetation restoration resulted from human activities versus 49.7% (~18,881 km2) that resulted from climate changes. Human activity played a key role in vegetation restoration in the central areas of the
basin and in determining land degradation in the southwestern and northeastern areas. In addition, climate significantly controlled
the vegetation restoration in the southwestern and northeastern areas and controlled land degradation in the central area. 相似文献
12.
Xin Liu Xianfang Song Yinghua Zhang Jun Xia Xuecheng Zhang Jingjie Yu Di Long Fadong Li Bing Zhang 《Environmental Earth Sciences》2011,63(5):1105-1118
Groundwater is of utmost significance to socio-economic development and ecological recovery for the Loess Plateau. However,
studies regarding the mechanism governing groundwater recharge over this area appear to be inadequate. This study is to examine
the spatio-temporal variations of δ2H and δ18O in precipitation and shallow groundwater. On the basis of this, the mechanisms governing shallow groundwater recharge were
explored. Precipitation and groundwater were sampled monthly from May to October during the period 2004–2006 at 13 sites in
the Chabagou Catchment (187 km2). In the Caopingxigou Experimental Watershed (0.1 km2), meteorological variables were observed and rainfall larger than 5 mm was sampled immediately after each rain event. Across
the area, 90% of the precipitation occurred from May to September primarily in the form of heavy rains or rainstorms with
great spatial variability. There were about 30 localized rains in each year. It was indicated that there existed notable seasonality
and pronounced spatial variability in precipitation isotopic compositions. Contributing factors and indications of isotopic
compositions, as well as their climatic indications such as monsoon intensities and mixing processes of water vapor, were
investigated. The δ2H–δ18O relation of groundwater was found to be δ2H = 3.22 × δ18O − 38.1, deviating from the local meteoric water line δ2H = 7.57 × δ18O + 3.9. The range of δ values in groundwater is shrunken to be 15–21% of that in individual precipitations, and groundwater in the middle reaches
shows a wider range of δ values. Isotopic results showed that groundwater originates from precipitation with hydrogen and oxygen isotopic compositions
being −69 and −9.7‰, respectively, and most groundwater experiences serious evaporation and adequate mixing with old water
during infiltration or percolation in the aerated zone. It was also founded that obvious fluctuations of isotopic compositions
in groundwater mainly appear in the middle reaches especially at sites that are close to valleys, suggesting varying sources
of groundwater from precipitation, precipitation runoff, isotopically enriched surface water and/or lateral recharge of adjacent
groundwater. 相似文献
13.
Zhanhong LIU Sitian LI Renchen XIN Changgui XU Jianchun CHENG 《Frontiers of Earth Science》2008,2(1):73-82
Bohaiwan basin, covering an area of 200 000 km2, is one of the most important oil-bearing basins in Eastern China. Rifting processes formed the basin, and two evolution
phases can be recognized. The rifting phase developed in Paleogene, and post-rifting phase occurred in Neogene. More than
200 oil fields have been found in the onshore and offshore area in Bohaiwan basin in recent years. The distribution of the
oil fields is closely related to the rich hydrocarbon depressions, and the Huanghekou depression is one of these rich hydrocarbon
depressions. A number of large and medium-sized oil and gas fields have been found in this area, such as BZ25-1, BZ34 etc.,
and the hydrocarbon was mainly from the Huanghekou depression. The formation of rich hydrocarbon source rocks depended on
the tectonic setting of rapid subsidence, favorable paleoclimatic conditions and paleolimnology environments. The effects
of paleoclimatic condition on hydrocarbon source rocks are the focus of this paper.
__________
Translated from Geological Bulletin of China, 2007, 26(7): 830–840 [译自: 地质通报] 相似文献
14.
At present, researches on climate change of the Heihe River basin mainly focus on the relationship between basin climate change
and regional water resources, regional desertification and dynamic climatic seasons of sandstorm, but less on climate change
of oasis region, where there are more intense and frequent human activities. Based on data of precipitation, temperature,
strong wind and dust events frequencies obtained from the six meteorological stations of Zhangye region in Heihe River basin,
the features of climate change during 1968–2005 were carefully studied. Results show that the regional temperature rise rate
exceeded the average level of China. The annual precipitation changed a little, but the precipitation had a slowly increasing
trend in spring and winter. Frequencies of strong wind and sandstorm days show obviously descending trends, which had a close
correlation with the regional temperature rise and the precipitation increase in spring and winter. Meanwhile, further human
economic activities and exploitations to the oasis in the inland valley of arid regions also affected the climate change of
this region, which has a sensitive and fragile eco-environment.
__________
Translated from Journal of Desert Research, 2007, 27(6): 1048–1054 [译自: 中国沙漠] 相似文献
15.
The qanat water supply technology, which gravity drains mountain aquifers into valleys, is considered as a culturally appropriate
and ecological sustainable design to meet northern Cyprus’ drinking water development needs. This research estimates the boundary
and water budget for the proposed qanat recharge area of 370 km2, which is in the upper elevations of the limestone dominated Five Finger Mountain Range. The mountain drainage was analyzed
using global elevation data from the Shuttle Ranging Topography Mission (SRTM). Efforts to use Tropical Rainfall Measuring
Mission (TRMM) annual precipitation for water budget inputs failed due to extreme error when tested against 10–30 years of
meteorological station data; TRMM under-estimated depths on the narrow mountain peaks. Gage records, while few in number,
were area averaged to set average annual precipitation inputs at 530 mm year−1. Evaporation was estimated using a complementary relationship areal evapotranspiration (CRAE) model, setting average atmospheric
outputs at 221 mm year−1. Recharge to the qanat aquifer was set by subtracting evaporation from precipitation, and then allocating 50% of the remaining
water to environmental services. At 25% development, the qanat system supplies 14 mm3 year−1 of water, meeting the drinking water deficit of 13 mm3. 相似文献
16.
U. K. Shukla 《International Journal of Earth Sciences》2009,98(2):443-459
The Piedmont Zone of the Indo-Gangetic Plain contains numerous, laterally coalescing small alluvial fans. The Latest Pleistocene–Holocene
30 km long Gaula Fan can be divided into gravelly proximal fan (0–14 km down-stream), gravel-sand rich mid fan (14–22 km)
and sand–mud dominated distal fan (22–30 km). The fan succession is composed of two fan expansion cycles A and B. Separated
by an undulatory erosional contact of regional extent, cycle A is characterized by river borne clast-supported gravelly deposits,
and the overlying fan expansion cycle B by matrix-supported gravely debris flows. The main process behind fan development
has been lateral migration of channels over the fan surface probably due to rapid sedimentation caused by increased sediment
supply, and the fluctuating water budget in response to changing climate. The water laid expansion cycle A represents a humid
phase. The debris flow deposits of expansion cycle B suggest a dry phase. Approximately between 8 and 3 Ka, cycle B also indicates
a phase of tectonic instability in the Siwalik Hills forming the mountain front. The tectonic activity caused incision of
rivers into the fan surface, and in turn resulted in reduced fan-building activity. At present the fan surface is accreting
by sheet flow processes. 相似文献
17.
The Kingston Basin in Jamaica is an important hydrologic basin in terms of both domestic and industrial sector. The Kingston
hydrologic basin covers an area of approximately 258 km2 of which 111 km2 underlain by an alluvium aquifer, 34 km2 by a limestone aquifer and the remainder underlain by low permeability rocks with insignificant groundwater resources. Rapid
development in recent years has led to an increased demand for water, which is increasingly being fulfilled by groundwater
abstraction. A detailed knowledge of the water quality can enhance understanding of the hydrochemical system, promoting sustainable
development and effective management of groundwater resources. To achieve this, a hydrochemical investigation was carried
out in the Kingston Basin. Results showed that the water is Na–Ca–Cl–HCO3 and Na–Ca–HCO3 type with higher concentrations of nitrate, sodium and chloride as the leading causes of contamination in most of the wells.
High concentrations of nitrate correlate with wells from areas of high population density and could be attributed to anthropogenic
causes, mainly involving improper sewage treatment methodologies or leaking sewer lines. Jamaica, owing to its island nature,
has the continuous problem of saline water intrusion, and this is reflected in the higher levels of chloride, sodium and conductivity
in the water samples collected from the wells. The wells studied show higher concentrations of chloride ranging from around
10.2 mg/l in wells located approximately (4931.45 m) from the coast to around 234 mg/l in the well located near to the coast.
The conductivity values also closely correlate with the chloride levels found in the wells. 相似文献
18.
Frequent occurrence of fog in different parts of northern India is common during the winter months of December and January. Low visibility conditions due to fog disrupt normal public life. Visibility conditions heavily affect both surface and air transport. A number of flights are either diverted or cancelled every year during the winter season due to low visibility conditions, experienced at different airports of north India. Thus, fog and visibility forecasts over plains of north India become very important during winter months. This study aims to understand the ability of a NWP model (NCMRWF, Unified Model, NCUM) with a diagnostic visibility scheme to forecast visibility over plains of north India. The present study verifies visibility forecasts obtained from NCUM against the INSAT-3D fog images and visibility observations from the METAR reports of different stations in the plains of north India. The study shows that the visibility forecast obtained from NCUM can provide reasonably good indication of the spatial extent of fog in advance of one day. The fog intensity is also predicted fairly well. The study also verifies the simple diagnostic model for fog which is driven by NWP model forecast of surface relative humidity and wind speed. The performance of NWP model forecast of visibility is found comparable to that from simple fog model driven by NWP forecast of relative humidity and wind speed. 相似文献
19.
The objective of this study is to investigate the impact of a surface data assimilation (SDA) technique, together with the
traditional four-dimensional data assimilation (FDDA), on the simulation of a monsoon depression that formed over India during
the field phase of the 1999 Bay of Bengal Monsoon Experiment (BOBMEX). The SDA uses the analyzed surface data to continuously
assimilate the surface layer temperature as well as the water vapor mixing ratio in the mesoscale model. The depression for
the greater part of this study was offshore and since successful application of the SDA would require surface information,
a method of estimating surface temperature and surface humidity using NOAA-TOVS satellites was used. Three sets of numerical
experiments were performed using a coupled mesoscale model. The first set, called CONTROL, uses the NCEP (National Center
for Environmental Prediction) reanalysis for the initial and lateral boundary conditions in the MM5 simulation. The second
and the third sets implemented the SDA of temperature and moisture together with the traditional FDDA scheme available in
the MM5 model. The second set of MM5 simulation implemented the SDA scheme only over the land areas, and the third set extended
the SDA technique over land as well as sea. Both the second and third sets of the MM5 simulation used the NOAA-TOVS and QuikSCAT
satellite and conventional upper air and surface meteorological data to provide an improved analysis. The results of the three
sets of MM5 simulations are compared with one another and with the analysis and the BOBMEX 1999 buoy, ship, and radiosonde
observations. The predicted sea level pressure of both the model runs with assimilation resembles the analysis closely and
also captures the large-scale structure of the monsoon depression well. The central sea level pressures of the depression
for both the model runs with assimilation were 2–4 hPa lower than the CONTROL. The results of both the model runs with assimilation
indicate a larger spatial area as well as increased rainfall amounts over the coastal regions after landfall compared with
the CONTROL. The impact of FDDA and SDA, the latter over land, resulted in reduced errors of the following: 1.45 K in temperature,
0.39 m s−1 in wind speed, and 14° in wind direction compared with the BOBMEX buoy observation, and 1.43 m s−1 in wind speed, 43° in wind direction, and 0.75% in relative humidity compared with the CONTROL. The impact of SDA over land
and sea compared with SDA over land only showed a further marginal reduction of errors: 0.23 K in air temperature (BOBMEX
buoy) and 1.33 m s−1 in wind speed simulations. 相似文献
20.
Feras Youssef Gunay Erpul Pieter Bogman Wim M. Cornelis Donald Gabriels 《Environmental Geology》2008,55(4):741-750
The trap efficiency of a catcher in wind erosion measurements plays a significant role, and in many cases suspension trap
efficiencies at high wind velocities are still unknown. The sediment trap efficiency generally changes with particles size
and with wind speed. In this study, the efficiency of Vaseline Slide (VS) and Modified Wilson and Cooke (MWAC) catchers were
determined with different sand particle sizes (<50, <75, 50–75, 200–400, and 400–500 μm) at a fixed wind speed (13.3 ms−1) and with different soil textures at different wind velocities (10.3, 12.3, and 14.3 ms−1) in the wind tunnel of the International Center for Eremology (ICE), Ghent University, Belgium. The traps were placed at
different heights (4, 6.5, 13, 20, 120, and 192 cm for VS and 1.5, 3, 5, 8, 11, and 30 cm for MWAC) to catch saltating and
suspended sediments in a 12-m long, 1.2-m wide and 3.2-m high working section of the wind tunnel. In the sand particle experiments,
the efficiency of the VS catcher was 92% for particles smaller than 50 μm and decreased with increasing particles size, falling
to 2.2% for 400–500 μm particle size at 13.4 ms−1. However, the MWAC’s efficiency was 0% for particles smaller than 50 μm and increased with increasing particle size to 69.5%
at 400–500 μm. In the experiments with different soil textures, the efficiency of each catcher significantly changed with
soil and with wind speed. It also considerably varied with the catchers: for instance, for sand (S), the MWAC efficiency was
very high (67.4, 113.4, and 90.5% at 10.3, 12.3, and 14.4 ms−1, respectively) while the efficiency of VS was relatively very low (5.2, 4.4, and 1.9% at 10.3, 12.3, and 14.4 ms−1, respectively). Results indicated that the efficiency depends critically on the particle size, type of catcher, and wind
speed, and these could be helpful to increase the robustness of wind erosion measurements. 相似文献