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The World of Protozoa, Rotifera, Nematoda and Oligochaeta

Lumbricus

  1. Lumbricus spp.
  2. Lumbricus castaneus
  3. Lumbricus friendi
  4. Lumbricus rubellus
  5. Lumbricus terrestris

1. Lumbricus spp.

[ref. ID; 6769]

Test system

Toxicants and worms

Soil were sampled around the chemical factory Kali Chemie AG in Bad Wimpfen, northern Baden-Wurttemberg. It was found in the 19th century as a salt works, but the upcoming aluminium industry prompted the management to change to kryolith production in 1921. From 1960 the factory diversified its F-chemistry prodution, including hydrofluoric acid, refrigerants, and spray propellants. In 1983, the factory was emitting about 2.8 kg/day, as HF. F emission and pollution of the surrounding landscape have a 67-years-old history.
The earthworms were extracted from the soil.

Measurements

F content of animals with gut and the F in chloragogen tissue.

2. Lumbricus castaneus

[ref. ID; 5994]

Test system

Effect of urbanization on earthworm community

Study sites

The study was carried out in Brussels, Belgium. A transect was demarcated along heavily trafficked streets running from the city centre to the suburbs, in which a decreasing gradient of urbanization was predicted. Within the transect, six public parks were chosen for the study.

Sampling method

Earthworms were extracted by an electrical octet method (Thielemann, 1986).

Measurements/observations

Average density and biomass of earthworms at individual sites, Pb, Cd, Cu, Zn, Ca, and Mg concentrations of worms.

[ref. ID; 5996]

Test system

Pb uptake by earthworms

Sample

Earthworms were collected from 2 sites.

Sampling method

The worms were extracted by hand-sorting on a plastic sheet.

Test design

Measurements/observations

The number of species, the number of individuals and biomass, Pb concentration in earthworms and soil.

3. Lumbricus friendi

[ref. ID; 5990]

Test design

The heavy metal concentrations of copper, lead, cadmium and zinc in earthworms and soil from the border of a road.

Samples

Samples were collected in a meadow located at the border of a hairpin bend next to Osebe (U.T.M. 29TNH34) in the arterial road 550 and which bore traffic of about 10,000-15,000 vehicles a day.

Sampling method

Earthworms were collected from the soil by digging and handsorting.

Measurements

Concentrations of Cu, Pb, Cd, and Zn in soil and earthworm tissue.

4. Lumbricus rubellus

Litter dwelling epigeic species. (ref. ID; 6138)

[ref. ID; 505]

Test system

Acute lethality tests (OECD 1984/EEC 1985)

Strains

Sexually mature.

Toxicants and Reference standard chemical

Chlorpyrifos and chloracetamide (ClCH2CONH2)

Test design

Measurements/observations

Body weight and number.

Evaluations

14 days-LC50 according to the trimmed Spearman-Karber method (Hamilton et al. 1977). 14 days-EC50 using the statistical software package GENSTAT 5. NOEC applying analysis of variance.

[ref. ID; 1433]

Test system

Worm sampling site

Measurements

Amounts of cadmium, lead, copper and iron in samples.

[ref. ID; 1913]

Test system

Accumulation test under laboratory and field conditions

Strains

From a local vermiculturist.

Toxicants

Copper.

Test design

Soils from an artificially contaminated (by applying CuSO4 at quantities of 0, 250, 500, and 750 kg Cu/ha) agricultural field near Wageningne, The Netherland. The soil is a slightly loamy fine sand and is low in organic matter content (loss-on-ignition: 3.5%). The soil was classified as a Fimic A Horizon (FAO-UNESCO, 1988) or a Plaggen Epipedon according to the USDA Soil Taxonomy.

Measurements/observations

Cu concentration in worm tissue.

[ref. ID; 1914]

Test system

The structure of model

Toxicants

Copper.

[ref. ID; 3580]

Test system

Strains

L. rubellus and D. rubidus from Carrock Fell, from Devon Great Consols and from uncontaminated site were collected by hand sorting.

Toxicants

Sodium arsenate. TWo arsenic- and heavy metal-contaminated mine-soil sites, at Carrock Fell, Cumbria and Devon Great Consols Mine, Devon. Uncontaminated site (mixed deciduous woodland site (SD 4888574) on the Lancaster University campus).

Test design

Measurements/observations

Evaluations

[ref. ID; 4481]

Test system

Accumulation and elimination

Toxicants

Sodium arsenate heptahydrate (Na2HAsO4/7H2O).

Test design

Measurements/observations

As concentration in worm tissue.

[ref. ID; 4581]

Test system

Uptake routes, ingestion (oral) or skin (dermal)?

Strains

From a non-polluted forest soil in Lepelstraat, The Netherlands.

Test design/concentrations

Orally sealed by medical histoacryl glue (Braun aesculap, Germany) and unsealed organisms.

Measurements/observation

Surviving number, weight and metal (Cd, Cu, Pb and Zn) concentration of body.

[ref. ID; 4639]

Test system

Accumulation

Strains

From studied site. Mature individual (clitellates).

Test design

Studied site: The site studied is located in Nord-Pas-de-Calais, northern France. In this area, there are two of the most important Pb an Zn smelters in Europe. The soils have been contaminated by wastes and dust emissions from the metallurgical industry since the middle of the 19th century. 6 sampling site.

Measurements

Contents of the metals (Pb, Zn, Cu, Cd) in earthworm tissues.

Evaluations

Biota-to-Soil Accumulation factor (BSAF).

[ref. ID; 5978]

Test system

Effect of pH on metal uptake and toxicity for earthworm

Strains

From a field-collected source and kept for one month in an uncontaminated culture medium. Mature adults weighing 500 to 1,500 mg.

Temperature/light condition

15+/-1.5 degrees C, 16:8-hr light:dark photoperiod.

Test design

Soils were collected from three sites under the deposition plume of a primary Cd, Pb, and Zn smelter (located at Avonmouth, southwestern England), located at different distances (site 1, 8.2 km; site 2, 3.2 km; site 3, 1.5 km) along a transect from the smelter.
1.5 L of test soils was placed into the experimental containers (polypropylene ice-containers, 180x180x93 mm), three pH treatment (Unamended, pH lowered by one unit (pH -1), pH increased by one unit (pH +1)) x 4 replicates, 8 worms/each replicate. At the start of the experiment, 5 g (dry wt) of suitable food (dried horse manure rewetted to 80% moisture content) was added to each container.

Measurements/observations

Mortality, number of cocoon, metal-binding protein metallothionein-2 (MT-2).

[ref. ID; 5984]

Test system

The influence of biotic factors of metal accumulation (31-days)

Strains

Worms collected from a single uncontaminated and ten contaminated sites in Mid-Wales, South East Wales and Shropshire.

Temperature/light condition

11 degrees C, dark.

Test design

Plastic container (21 cm x 12 cm x 18 cm).

Measurements/observations

Mortality. Ca, Cd, Cu, Pb, and Zn concentration in earthworm tissues.

[ref. ID; 5987]

Test system

Effect of pH and calcium on lead and cadmium uptake in water

Strains

Subadult, 500 mg fresh weight. Prior to exposure they were starved for 2 days at 15 degrees C on moist filter paper to remove the intestinal contents.

Toxicants/concentrations

Pb(NO3)2 (concentration 0, 2.4, 9.7, and 24.1 uM Pb), Cd(NO3)2 (concentration 0, 8.9, 35.6, 89.0 uM Cd).

Test design

The earthworms were exposed singly in glass containers with 100 ml of aerated reconstituted water (100 mg NaHCO3, 20 mg KHCO3, 200 mg CaCl2/2H2O, 180 mg MgSO4 per liter demineralized water: pH 8.2) resembling natural groundwater for 24 hr and 15 degrees C.

Measurements/observations

Lead and cadmium of earthworm body were measured with using an atomic absorption spectrophotometer.

[ref. ID; 5989]

Test system

Influence of soil pH and organic matter for uptake of cadmium, zinc, lead, and copper by earthworms

Soil and worms

Sampling was done largely in the Dutch Kempen region located south-east of Eindhoven and north to a complex of several large zinc smelting works. The average weight of the worms with emptied gut contents was 86+/-28 mg (dry wt).

Measurements/observations

Samples of soil and worms were digested with nitric and sulfuric acids and analyzed for contents of Cd, Zn, Pb, and Cu by atomic absorption spectrophotometry.

[ref. ID; 5991]

Test system

Biological monitor

Collection sites

Earthworms were collected in October 1983 from heavily contaminated soils in the vicinity of disused non-ferrous metalliferous mines in Avon, Shropshire, Derbyshire and throughout Wales. Dinas Powis, a relatively uncontaminated site, was chosen as a control.

Measurements/observations

[ref. ID; 5992]

Test system

Heavy metal concentrations in the tissues, ingesta and faeces

Collection sites

Earthworms were collected by formalin extraction (20 L, 0.55%) from five separate 1 m2 sites situated on a longitudinal transect across the Cefn Parc Pb and Zn-mine, South Wales (O.S. grid ref. = ST 048822).

Test design

Earthworms were starved on moistened filter paper for 4 days by which time the alimentary canal was clear of ingested soil material. Animals were wet oxidized with concentrated (16N) "Analar" nitric acid, and analysed for Cd, Cu, Pb, and Zn by flame atomic absorption spectrophotometry.

Measurements/observations

Dry weight and tissue metal concentration of worms, metal concentrations of ingesta (crop contents) and egesta (faeces).

[ref. ID; 5993]

Test system

Cd uptake by earthworm

Strains

Field collected earthworm.

Toxicants

Cd(NO3)2.

Test design

An uncontaminated sandy soil from the Wildekamp field near Wageningen, The Netherlands, was spiked with cadmium.

Measurements

Number, weight, and Cd concentration of worms, cocoon number.

[ref. ID; 5994]

Test system

Effect of urbanization on earthworm community

Study sites

The study was carried out in Brussels, Belgium. A transect was demarcated along heavily trafficked streets running from the city centre to the suburbs, in which a decreasing gradient of urbanization was predicted. Within the transect, six public parks were chosen for the study.

Sampling method

Earthworms were extracted by an electrical octet method (Thielemann, 1986).

Measurements/observations

Average density and biomass of earthworms at individual sites, Pb, Cd, Cu, Zn, Ca, and Mg concentrations of worms.

[ref. ID; 5996]

Test system

Pb uptake by earthworms

Sample

Earthworms were collected from 2 sites.

Sampling method

The worms were extracted by hand-sorting on a plastic sheet.

Test design

Measurements/observations

The number of species, the number of individuals and biomass, Pb concentration in earthworms and soil.

[ref. ID; 5998]

Test system

The effect of exogenous (soil) calcium on lead accumulation by earthworms

Collection sites

Earthworms were collected from the shallow soil overlying the stony spoil heaps of 15 disused lead mines throughout Wales, Shropshire and Avon. Samples were also collected from an uncontaminated site (Dinas Powis) in South Wales.

Test design

Soil-feeding experiment: 3 soils were placed in a clean plastic box (23 cm x 23 cm x 12 cm) to a depth of 10 cm, respectively. 15-20 worms were collected from Dinas Powis, were placed in the experimental boxes. The animals were maintained for 35 days in the dark at 4 degrees C, with soil moisture maintained at approximately 30%.

Filter paper feeding experiment: Whatman No.1 filter paper was finely shredded in a liquidiser and 25 g were placed in six individual 500 ml glass beakers, the floors of which were covered by Whatman No.1 filter paper discs. To each baker was added 30 ml of a given test solution (Ca, Pb, and Ca + Pb). pH 5.4. 8-10 animals were used in each experimental group. The experimental was run in the dark at 15-17 degrees C for 14 days, and the filter paper and solution were changed daily.

Measurements/observations

Tissue lead concentration.

[ref. ID; 6065]

Test system

Bioaccumulation and biotransformation

Sampling sites

The field samples were collected from the area of the sawmill "Sikoniemi" (near the town of Kuopio in Central Finland). The sawmill was abandoned 28 yr ago, and at present there is a dense birch forest in the area.

Toxicants

2,3,4,6-Tetrachlorophenol.

Test design

Laboratory experiments: Soil was taken from a hayfield which had not been ploughed for several years (organic matter content 20% and pH 6.2) + 2,3,4,6-Tetrachlorophenol + food (clean birch leaf litter) + 13 worms, 16+/-1 degrees C.

Measurements

2,3,4,6-Tetrachlorophenol, Pentachlorophenol and their metabolites in worms.

[ref. ID; 6067]

Test system

Uptake of bound residues of Bentazone

Test design

10 individuals were held for 14 days in two soil types (sandy loam and loamy sand), both containing bound residues of [14]C-labelled (phenyl-u-[14]C) bentazone. The soil water content was adjusted to 17% (weight).

Measurements

Concentrations of [14]C-substances in different tissues of earthworm.

[ref. ID; 6083]

Test system

Metal accumulation

Sampling sites

Measurements

Tissue concentration of Pb, Cu, Cd, Zn, Mn, and Ca.

[ref. ID; 6086]

Test system

The effect of calcium concentration on cadmium accumulation of two earthworms

Strains

Lumbricus rubellus and Allolobophora caliginosa were collected at Keele, Staffs.

Toxicants/concentrations

Cadmium (5 ppm).

Test design

The earthworms were placed in glass jars containing filter paper (Whatman No.1, 24 cm) for 21 days at 15 degrees, in the dark. At the end of the experimental period the filer paper was removed and the earthworms left for a further 5 days in contact with a small volume of cadmium solution.

Measurements

Cadmium concentration in earthworm tissues.

[ref. ID; 6090]

Test system

The influence of temperature and soil pH for sublethal toxic effect of copper on Lumbricus rubellus (6 weeks)

Strains

Adult worms were collected from a continuous grassland site.

Toxicants

Copper chloride (14 (unamended soil) - 372 mg Cu kg-1).

Test design

Experimental units were formed consisting of nylon-meshed netbags with a 5-litre volume of soil (agricultural sandy soil (loamy sand): 2% clay, 20% silt and 5.7% organic matter, pH (KCl) 4.8, soil moisture content 15%, and calcareous sandy loam soil: 17% clay, 74% silt, 3.4% organic matter, 5.5% CaCO3, soil moisture content 35%). 5 worms per unit. 5-8 replicates.

Measurements

Mortality, body weight, cocoon production, litter breakdown activity.

[ref. ID; 6095]

Test system

Calcium-lead interaction

Strains

Specimens were collected from the spoil-heap soils of the abandoned lead mines at Cwmystwyth (acidic, pH 4.3) and Draethen (calcareous, pH 6.5) in Mid- and South Wales, respectively. Also, L. rubellus was collected from Dinas Powis, an uncontaminated site in South Wales.

Toxicants

Lead.

Test design

Filter paper feeding experiment: 8-10 animals were exposed to finely shredded Whatman No.1 filter paper (25 g) soaked in 30 ml of test solutions (deionised water, 100 ug/ml Ca, 400 ug/ml Ca, 80 ug/ml Pb, 80 ug/ml + 100 ug/ml Ca, 80 ug/ml + 400 ug/ml Ca) in the dark at 15-17 degrees for 14 days. The filter paper and solutions were changed daily. pH 5.4.

Measurements

Lead concentration in worm tissue.

[ref. ID; 6102]

Test system

Seasonal changes in the tissue-metal (Cd, Zn and Pb) concentration in earthworm in heavy metal polluted soil

Sampling sites

Mature (clitellate) worm were collected monthly from a 9-m2 sampling site at Cefn Parc mine, near Llantrisant, S. Wales (O.S. grid ref. ST 048822).

Toxicants

Cd, Pb, Zn.

Measurements

Dry weight and Cd, Pb, and Zn concentration in worm.

Evaluations

Monthly differences in tissue-metal concentrations were evaluated statistically by Duncan's multiple-range test. Differences in tissue-metal burdens between diapause and pre- or post-diapause animals were statistically evaluated by the Mann-Whitney U-test.

[ref. ID; 6136]

Test system

Earthworm responses to Cd and Cu under fluctuating climate (temperature and rainfall)

Strains

Both adult (fifteen individuals: 500-1500 mg weight) and juvenile (ten individuals: mean weight 30 mg range 6-99 mg) were added to the mesocosms. Adults were obtained from a commercial source (originally field collected).

Toxicants

CuCl2/2H2O and CdCl2/2.5H2O.

Test design

Mesocosm design: Each unit comprised a 40 cm section of 30 cm internal diameter medium density polyethylene pipe with wall thickness of 12 mm. The bottom of each pipe was sealed using nylon and medium density polyethylene (mesh size 4 mm) and 64 g m-2 Phormisol (LBS Horticulture, Colne, UK). This was then screwed to the base of the mesocosm and secured with silicone sealant. The top of mesocosm secured 280 x 360 um mesh.
Test medium: A commercially available clay loam soil (Broughton Loam, Kettering, UK), with a pH of 7.1 and a 5% organic matter content. Fifteen kilograms dry weight of soil was used in each mesocosm with four replicates per treatment. For moistening and spiking, soils were placed in a watertight plastic bag within the mesocosm and aqueous solution of CuCl2/2H2O and CdCl2/2.5H2O added at volumes and concentrations sufficient to give a water content of 60% of soil water holding capacity and nominal metal concentrations of 0, 0.16, 0.63, 2.52, 7.56 umol Cu g-1 in the Cu test and 0, 0.111, 0.45, 1.78 and 5.34 umol Cd g-1 in the Cd test. The field plot was situated in the southeast, UK (Ordnance Survey Grids Reference TL 798292).
Total exposure time: 70 days.

Measurements/observation

Evaluations

[ref. ID; 6138]

Test system

OECD-style toxicity (28 days) test

Strains

From Ecology Earthworms, Hubbards Hall Farm, Bentley, Ipswich, Suffolk, UK. Mature adult (average weights 0.76+/-0.11 g), 280 individuals.

Toxicant/concentrations

Pb(NO3)2 1000, 3000, 4000, 5000, 7500 and 10 000 mg Pb kg-1.

Test design

OECD-style test: 1 L plastic containers (500g dry weight soil (Kettering loam, purchased from Barrycroft Stores Limited, Kettering, Cambridgeshire, UK), moisture content of the soil to 50% of the total WHC (water holding capacity), 15 degrees C, four replicates.

Measurements/observations

Mortality, weight of worms, total Pb in earthworm tissue.

Evaluations

[ref. ID; 6708]

Test system

Effect of pyrene for metabolomics

Strains

Adults weighing >500 mg.

Toxicity

Pyrene.

Test design

1 kg (dry weight) of soil mix was placed dry into 1 L Kilner jars and spiked with concentrations of 0, 10, 40, 160 and 640 mg kg-1 of pyrene in equal volumes of acetone. Soils were then vented for 72 hr to remove all the solvent, wetted to 60% of water holding capacity. Six worms added to each jar. For 42 days at 15+/-1.5 degrees C in a 16:8 hr light:dark. Food (air-dried horse manure).

Measurements/observations

1H nucelar magnetic resonance (NMR) analysis and gas chromatography mass spectrometry (GC-MS) analysis of worm tissue extraction.

[ref. ID; 6711]

Test system

Combined effects of zinc and earthworm density for risk assessment

Strains

Worms are collected at an unpolluted site (Nijkerkerveen, The Netherlands). Adult worm (average individual wet weight+/-SD: 1.58+/-0.11 g) density (0, 3, and 5 worms per containers).

Toxicants

ZnSO4/7H2O (0, 140, 300 and 620 mg Zn kg-1 dry wt). In order to check for effects of sulfate addition, CaSO4/H2O was added to a separate series of microcosms without worms at concentrations of 0, 172, 554 and 1721 mg CaSO4/2H2O kg-1 dry wt.

Test design

Soil: Soil was collected from the experimental organic farm 'Kooyenburg' at Rolde, The Netherlands. The soil is a sandy loam soil, slightly acidic and with a low SOM (soil organic matter) content. This soil has a long history of no-tillage farming without pesticide application. The soil contains low concentrations of heavy metals. The natural background concentration of zinc is 18 mg kg-1 dry wt.
Microcosms: The microcosms consisted of 1-l NALGENE cylindrical Perspex containers (diameter 115 mm, height 130 mm). They received 700 g air-dried soil, wetted with 114 ml demineralized water (soil moisture content of approx. 15% (w/w)). At the beginning of the experiment alder leaves (Alnus glutinosa (L.) Gaertn.) were added to the soil surface of each microcosms. 15 degrees C, relative air humidity of 80% and under permanent light conditions.

Measurements/observations

Respiration was measured every 2 hr in the headspace of each microcosm using conductometry. After 52 days incubation, number and weight of worms measured. The weight of the remaining A. glutinosa litter was measured separately in each sieve fraction (mesh widths of 31.3, 16, 8, 4, 2, 1, 0.5 and 0.25 mm).

[ref. ID; 6713]

Test system

Flooding response

Strains

Toxicants

Zinc, cadmium, copper.
Flooded soil: Soil was collected from the top 0-10 cm horizon in an 'Afferdensche en Deetsche Waarden'(ADW).

Test design

Pot experiment: 44 plastic flowerpots (18 cm diameter, height 18.5 cm) 100 mg kg-1 zinc (Zn(NO3)/3H2O), 5 mg kg-1 cadmium (Cd(NO3)/4H2O), 20 mg kg-1 copper (Cu(NO3)2/3H2O). On top of the soil, grass (Lolium perenne) was sown. At 12 degrees C with continuous light, during 42 days. In the flooded treatments, the water level was raised to 5 cm water above the soil surface. Moisture preference experiment: 8 glass aquaria (31 cm x 19 cm x 20 cm) were dividing five equal compartments with four Perspex partitions (height 13 cm). The aquaria were filled to a depth 11 cm with field soil at different moisture contents (35%, 45% (field capacity), 55%, 65% (saturated), 65%+ (saturated and an extra water layer) w/w). At 12 degrees C with continuous light, during 9 days. Health experiment: 40 small plastic buckets (diameter 12 cm, height 14 cm) were filled with 0.7 cm3 field soil. Two adult of each of the species A. caliginosa, L. rubellus and A. chlorotica added to each bucket (moisture content (35%, 45%, 55%, 65%, and 65%+). At 12 degrees C with 12h light, during 42 days.

Measurements/observations

Worm number and weight.

[ref. ID; 6741]

Test system

The mechanistic bioaccumulation model OMEGA (Optimal Modeling for Ecotoxicological Applications) predictions

Toxicants

Concentration of cadmium, copper, lead, zinc in the earthworm Lumbriucs rubellus, soil and porewater.

[ref. ID; 6743]

Test system

Effect of temperature and season

Strains

Worms obtained from a field collected source and then kept outdoors, under cover for one month in uncontaminated culture medium consisting of 33% loamy soil, 33% peat, 33% composed bark (LBS Horticultural, Colne, UK). Fully mature adults weighing 400-1600 mg used.

Soils

Soils were collected from three sites under the deposition plume of a primary Cd, Pb, and Zn smelter located at Avonmouth, South West England, and from three different seasons (spring, autumn, winter).

Test design

Plastic boxes with dimensions (180 mm x 180 mm x 93 mm) were filled with 1.5 L of the relevant soil. 8 worms added. Containers were covered to limit water loss and kept at the relevant temperature (10, 15 and 20 degrees C) in a 16 hr light 8 hr dark regime for 42 days. 5 g (dry weight) of food (dried horse manure re-wetted to 80% moisture content) was spread on the soil surface. Weekly, excess food was removed and 5 g of fresh food added.

Measurements/observations

Mortality, lysosomal membrane stability assay (NRR-T assay), metallothionein-2 protein, metal concentrations (As, Cd, Cu, Hg, Pb, Zn).

[ref. ID; 6744]

Test system

Effect of time and mode of depuration on tissue copper concentration

Strains

From Ecology Earthworms, Hubbards Hall Farm, Bentley, Ipswich, UK. Individuals with fully clitellate (mean fresh weights: 1158+/-1.56 mg).

Toxicant/concentrations

Cu(NO2)3/3H2O, 250 mg Cu kg-1.

Test design

Culture period 28 days. Depuration method: 1) Depuration time (0, 24, 36, 48, and 72 hr). After depuration the filter papers (Whatmann no.540) were dried at 40+/-1 degrees C for 24 hr and re-weighed. The earthworms were rinsed in ultrapure deionised water, dried on tissue paper and immersed for 20sec in boiling ultrapure water. 2) After depuration for 0, 24, 36, 48 or 72 hr, the earthworms was dissected following immersion in boiling water for 20sec. The earthworms were slit open to expose the alimentary canal, which was cut from above the crop to the bottom of the intestine. Each earthworm was pinned open onto a wax board and a small brush was used to carefully remove the soil particles present in the crop, gizzard and intestine.

Measurements/observations

The concentration of Cu and Ti in tissues of worm.

[ref. ID; 6745]

Test system

Metal bioaccumulation

Floodplain site

Three sites along the rivers Nieuwe Merwede and Waal. The sites are located on gradually sloping riverbands, and are subjected to periodic inundation.

Collection organisms

Collection was random within the 10x10 m plot. At least 5 individuals of each pedo-ecological group were taken. After taking to the laboratory, the earthworms were allowed to defaecate on wet filter paper for 48 hr. Wet weights were determined, followed by storage in freezer at -18 degrees C until analyses.

Measurements/observations

As, Cd, Cr, Cu, Pb, Zn, Mn, Fe, Ca concentration in earthworms.

[ref. ID; 6749]

Test system

The effect on heavy metal (Pb and Zn) fractionation of processing the soil through earthworm's digestive tracts, mobility, and oral-bioabailablity in earthworms casts.

Strains

Worms obtained from Biobrazda (Dragomer, Slovenia), were used fully clitellated adult specimens and subadult specimens with clear signs of developing tubercula pubertatis.

Toxicants

Soil was collected from the 0-30 cm surface layer of an abandoned vegetable garden in the vicinity of a former industrial site in the Mezica Valley in Slovenia. The Mezica Valley has been exposed to more than 300 years of active Pb mining and smelting.

Test design

Pot experiment: Clean plastic pots (height 9 cm, diameter 12.5 cm) were filled with 250 g of air-dried non-remediated and remediated soil, in three replicates. 80% of soil field water capacity. 10 earthworms (0.12-0.29 g fresh weight) introduced into each pot and kept in the dark at 20 degrees C for 7 weeks.
Lead bioavailability in warm casts was determined as oral bioavailability in simulated stomach (pH 2.50+/-0.05) and intestinal (pH 7.00+/-0.05) phases of human gastrointestinal tract, using Ruby's physiologically based extraction test.

Measurements/observations

Fractionation (assessed using sequential extractions) of Pb and Zn in worm casts.

[ref. ID; 6763]

Test system

Strains

Adult earthworms were provided by Edwin Berry, National Soil Tilth Laboratory, USDA Agricultural Research Service, Ames, Iowa. The earthworms species used were Lumbricus rubellus (weighing 0.80-1.21 g), Aporrectodea trapezoids (weighing 2.15-2.57 g), Lumbricus terrestris (weighing 5.08-6.23 g).

Toxicants

Plasmid: pJP4, Donor: Alcaligenes eutrophus JMP222N, Recipient: Pseudomonas fluorescens C5t

Test design

Soil: A Hubbard loamy sand (Udorthenic Haploboroll).
Microcosm: The microcosm consisted of a polyvinyl chloride tube (50 by 10 cm diameter) which was cut into eight 5-cm segments. The remaining 10-cm segment served as the headspace.

Experimental design

Soil microcosms containing spatially segregated, coinoculated donor and recipient strains, inoculated control (donor and recipient strain only) soil microcosms, and uninoculated control soil microcosms. Triplicate microcosms for each of the four treatment (i.e., no worms, L. rubellus, A. trapezoides, and L. terretris). 3 adult earthworms added to surface of the microcosm. (The final earthworms density was equivalent to approximately 100 earthworm per m2 of soil. 20 degrees C. Experimental period 2 weeks.

Measurements/observations

Vertical distribution of earthworms number. Donor, recipient, transconjugant bacteria number of casts and cocoon.

[ref. ID; 6786]

Test system

The applicability of CBRs as a practical tool in soil quality assessment of contaminated sites

Strains

From unpolluted grassland sites in the region of Wageningen. Clitellated adult stage.

Toxicants

CuSO4/5H2O.

Test design

Batches of five adults worms in 600 ml volume of soil (an arable sandy soil from Kooyenburg, and a silty clay loam from Oostelijk Flevopolder) were incubated in a climate chamber with a constant temperature of 15 degrees C and continuous light. Crushed leaves of alder (Alnus glutinosa) were added on top of the soil surface as a suitable food source. Experiment period was 4 weeks.

Measurements

Survival and cocoon number.

Evaluations

Treatment effects and dose-response data were analyzed using the Genstat 5, release 4.2, statistical package.

[ref. ID; 6787]

Test system

The effects of earthworm density on the life-history parameters

Strains

Adult were used to produce F1 cocoons.

Test design

Bioassay containers (64 one-liter containers were filled with 650 g of soil (sandy loam soil pH 5.1, organic matter 5.7%, clay content 2%). Crumbled alder leaves (Alnus glutinosa, about 80 g) were placed on top of the soil surface after being rewetted with distilled water. Containers were stored in controlled climate rooms at 15 degrees, 61% humidity, and in continuous light. Experiment period was 6 months. Food was added if the amount was reduced by about 50% such that food remained over-abundant during the test in all containers.
Juveniles (mean weight+/-SD, 16+/-2 mg) were allotted randomly to the 64 containers in earthworm densities ranging from two to nine earthworms per container, with eight replicates for each earthworm density.

Measurements

Number and weight of adult, subadult, and cocoon production.

[ref. ID; 6819]

Test system

Strains

From a reference (control) and two polluted (smelter and mine) sites. Adult worm.

Toxicant/concentrations

ZnNO3/6H2O (0, 190, 350, 620, 1200, 2000, and 3600 ug Zn g-1).

Test design

Six worms were weighed and added to each test replicate (plastic boxes, 220 mm x 160 mm x 80 mm). Containers were covered and kept for 42 days at 15 +/- 2 degrees C under constant light. A suitable food (finely ground fresh horse manure, dried and rewetted to 75% water content) added. Artificial soil (OECD, 1984 and EEC, 1985) was not used, because previous experiments to measure metal toxicity for L. rubellus in OCED soil have indicated some problems, in particular high control mortality. Tests were conducted with a medium based on commercially available sady loam topsoil, and 20% by weight of finely ground Sphagnum peat was added.

Measurements/observations

Survival, weight change, cocoon production, and zinc concentration in worm.

[ref. ID; 6849]

Test system

Heavy metal accumulation

Toxicants

Sewage sludge (Milorganite, an anaerobically digested, heat-dried commercial sludge (N-P-K, 6-2-0)).

Test design

The study area consisted of eight 0.1 ha enclosures in the third year of secondary succession. The enclosures were ploughed, disced, and fertilized with 336 kg ha-1 commercial fertilizer (N-P-K, 12-12-12) in 1977. Winter wheat Triticum aestivum var. Ranger was planted in October 1977. The wheat matured in 1978 and was not harvested; the fields were allowed to go fallow in 1979. Three replicates plots were treated with dried sludge, three with fertilizer, and two left as untreated controls.

Measurements/observations

Heavy metal (Cd, Cu, Pb, Zn) concentration in earthworm.

[ref. ID; 6858]

Test system

Life-cycle and biomarker responses to zinc in four earthworm species (Aporrectodea caliginosa, Eisenia fetida, and Lumbricus terrestris)

Strains

From an unpolluted pasture on the University of Reading Campus, Reading, United Kingdom, by digging and hand sorting. Adult worm with mean wet weight 732 mg.

Toxicants/concentrations

Zn(NO3)2/6H2O aqueous solutions: 0, 190, 350, 620, 1200, 2000, and 3600 ug/g.

Test design

Zinc exposures were conducted in a natural soil-based test system. The soil used was a mixture of a commercially available sandy loam soil (Rockalls, Wokingham, Berkshire, UK) and commercially available Sphagnum peat (Bullrush Ltd, County Tyrone, UK). One kilogram of the soil mix was added to each experimental a container (plastic boxes 220x160x80 mm), with four replicate containers used for each test concentration. Water-holding capacity 60%. 6 worms per container. During exposure period, the test containers were covered to limit water loss and kept in constant light at 15 degrees C for 42 days. Finely ground fresh horse manure (dried and rewetted to 75% water content) was added as source of food (4 g dry weight per weekly to each container) in all tests.

Measurements/observations

Evaluations

Significant differences in parameters were calculated using analysis of variance (ANOVA). When, differences were found, Tukey's multiple comparison test was used to determine differences between specific treatments.

[ref. ID; 6860]

Test system

Inherited resistance

Strains

Toxicants

Sodium arsenate (Na2HAsO4/7H2O), copper chloride (CuCl2).

Test design

Soil from an uncontaminated, mixed deciduous woodland site on the Lancaster University campus was rewetted to a moisture content of 53% (dry wt equivalent) using a solution of sodium arsenate (Na2HAsO4/7H2O) to give a concentration of 2,000 mg As/kg or with a solution copper chloride (CuCl2) to give a concentration of 300 mg Cu/kg dry weight of soil. Mean soil pH 5.34+/-0.04. Moistened soil (69 g) was weighed into each of a series of 20x25-cm polythene bags. One worm per each bag. The bags were kept for 28 days at 9 degrees C in 24 hr of darkness.

Measurements

Condition index scores, 0 = dead, 1 = moribund (flaccid unresponsive to tactile stimulation), or 2 = turgid (responsive to tactile stimulation). Number of cocooons produced in the field-collected adults and the F1 generation adults. Arsenic concentration in worm tissue.

Evaulations

Condition Index.

[ref. ID; 6892]

Test system

Effect of soil heterogeneity

Strains

From a vermiculturist.

Toxicants

CuSO4.

Test design

Measurements/observations

Cu concentration in worm tissue.

[ref. ID; 6909]

Test system

Resistance to arsenic toxicity

Strains

Toxicants

Test design

Experimental period 28 days.

Measurements/observations

Tissue As concentration in L. rubellus and body weight.

Evaluations

Condition Index.

[ref. ID; 6912]

Test system

Tolerance to arsenic toxicity

Strains

Resistant strain were collected by hand-sorting from Devon Great Consols mine at Tavistock, Devon, UK. The strain show high tolerance to Cu- and As-toxicity and frequently have a striking yellow coloration. Another strain were collected from the uncontaminated, mixed deciduous woodland on the Lancaster University campus.

Toxicants

The Devon Great Consols soil contained considerably higher concentrations of As 9845+/-40 mg kg-1 and Cu 1645+/-220 mg kg-1.

Test design

Moistened soil was weighed into each of a series of 20x25 cm polythene bags. One earthworm was weighed and introduced into each bag.

Measurements/observations

Pigmentation, As concentration in worm tissue and condition index.

[ref. ID; 6953]

Test system

Toxicity and bioaccumulation

Strains

Adults with a well-developed clitellum and average weight 1314-1816 mg.

Toxicants

3-Chlorophenol, 3,4-Dichlorophenol, 2,4,5-Trichlorophenol, 2,3,4,5-Tetrachlorophenol, Pentachlorophenol.

Test design

Soils: Soils was collected from the top 20 cm of agricultural fields. Holten soil (very humic sand) and Kooyenburg soil (moderately humic sand).
Glass jar filled with about 0.65 kg soil (dry wt) and 5 worm. The jars were placed in an incubator at 15 degrees C. Experimental period 7 and 14 days.

Measurements

Mortality.

Evaluations

LC50 values based on 14 days'mortality data were calculated according to a logit model.

[ref. ID; 6978]

Test system

2-wk LC50

Strains

Toxicants

3-chlorophenol (MCP), 3,4-dichlorophenol (DCP), 2,4,5-trichlorophenol (TCP), 2,3,4,5-tetrachlorophenol (TeCP), pentachlorophenol (PCP), 2,4-dichloroaniline (DCA), 1,2,3-trichlorobenzene (TCB).

Test design

Soil type: OECD artificial soil, two different sandy soil, and peaty soil.
Tests carried out at least in duplicate, with at least 5 concentrations and a control.

Evaluations

LC50 using trimmed Spearman-Karber method. Quantitative structure-activity relationships (QSARs).

[ref. ID; 7027]

Test system

Assessment of Equilibrium partitioning theory in in situ studies and water experiments

Strain

Toxicants

Benzo[a]pyrene, Fluoranthene, Phenanthrene, and Pyrene.

Test design

Measurements/observations

Evaluations

BSAF, BAF, BCF.

[ref. ID; 7055]

Test system

The distribution of Cd, Cu, Pb, Zn, and Ca in the worm tissues

Samples

Mature (clitellate) L. rubellus were collected from an uncontaminated site (Dinas Powys, O.S. grid reference ST 146723) and four disused non-ferrous metalliferous mine sites (Llantrisant, ST 048822; Draethen, ST 217877; Cwmystwyth, SN 803748; Ecton, SK 098581). Worms and soils were collected from a 3-m diameter circle at each site.

Toxicants

Cd, Cu, Pb, Zn, and Ca.

Measurements

The worms were dissected following the tissue fractions. Dry weight and metal content in each tissue fractions.

Evaluations

Tissue affinity for Cd, Cu, Pb, Zn, and Ca.

5. Lumbricus terrestris

Anecic species. (ref ID; 6763)
Lumbricus terrestris is anecic and lives in deep vertical burrows. (ref. ID; 6858)

[ref. ID; 505]

Test system

Acute lethality tests (OECD 1984/EEC 1985)

Strains

Sexually mature.

Toxicants and Reference standard chemical

Chlorpyrifos and chloracetamide (ClCH2CONH2)

Test design

Measurements/observations

Body weight and number.

Evaluations

14 days-LC50 according to the trimmed Spearman-Karber method (Hamilton et al. 1977). 14 days-EC50 using the statistical software package GENSTAT 5. NOEC applying analysis of variance.

[ref. ID; 1433]

Test system

Worm sampling sites

Measurements

Amounts of cadmium, lead, copper and iron in samples.

[ref. ID; 2167]

Test system

A 32-days toxicity test

Toxicants

Terbufos (COUNTER-15G)

Temperature

8-18 degrees C.

Test design

12-L polyethylene plastic containers. EPA artificial soil (68% silica sand (No. 70 mesh: sand-blasting grade), 20% kaolin clay, 10% peat moss, 2% finely ground calcium carbonate), 12L:12D photoperiod.

Measurements/observations

Mortality, body weight, pesticide uptake.

[ref. ID; 4496]

Test system

60 days toxicity test

Strains

Collected around the Faculty of Sciences in Reims, France, in an area that has not been treated with pesticides for 35 years. Adults with a well-developed clitellum.

Toxicants/concentrations

Isoproturon (0, 0.5, 0.8, 1.0, 1.2, and 1.4 g/kg soil).

Test design

70-90% relative humidity, 12:12 photoperiod. Temperature 14+/-1 degrees C.

Measurements/observations

Body weight, growth rate, mortality, protein contents.

Evaluations

LC50.

[ref. ID; 4498]

Test system

Strains

Clitellate adult (4 to 5 g).

Toxicants

Atrazine-metolachlor liquid formulation.

Test design/concentrations

One hundred-twenty 0.5 L glass jars (200 g moist (13 % w/w) soil (from a zero-till corn field near Belmont, ON, Canada) + concentration (0, a recommended field rate, x3 times, and 6 times), food (2 g soybean leaves, 2 g corn leaves, or no residures).

Measurements/observations

Body weight.

[ref. ID; 4958]

Test system

NRRT assay

Strains

Mature adult individuals were obtained from a commercial supplier (Appats Saint-Gabriel, Saint-Gabriel de Brandon, QC, Canada).

Toxicants

HMX, RDX, TNT, Tetryl.

Test design

Test soil was contaminated with different PNOs such as HMX, RDX, TNT and its by-products.

Measurements/observations

NRRT.

[ref. ID; 5992]

Test system

Heavy metal concentrations in the tissues, ingesta and faeces

Collection sites

Earthworms were collected by formalin extraction (20 L, 0.55%) from five separate 1 m2 sites situated on a longitudinal transect across the Cefn Parc Pb and Zn-mine, South Wales (O.S. grid ref. = ST 048822).

Test design

Earthworms were starved on moistened filter paper for 4 days by which time the alimentary canal was clear of ingested soil material. Animals were wet oxidized with concentrated (16N) "Analar" nitric acid, and analysed for Cd, Cu, Pb, and Zn by flame atomic absorption spectrophotometry.

Measurements/observations

Dry weight and tissue metal concentration of worms, metal concentrations of ingesta (crop contents) and egesta (faeces).

[ref. ID; 5994]

Test system

Effect of urbanization on earthworm community

Study sites

The study was carried out in Brussels, Belgium. A transect was demarcated along heavily trafficked streets running from the city centre to the suburbs, in which a decreasing gradient of urbanization was predicted. Within the transect, six public parks were chosen for the study.

Sampling method

Earthworms were extracted by an electrical octet method (Thielemann, 1986).

Measurements/observations

Average density and biomass of earthworms at individual sites, Pb, Cd, Cu, Zn, Ca, and Mg concentrations of worms.

[ref. ID; 5997]

Test system

The heavy metal concentrations of lead, zinc and cadmium in earthworms and soil from pasture near the Avonmouth smelter (Severnside near Bristol, England)

Samples

Soil and earthworms were taken from two sites. The first site was permanent pasture at Severnside, 4 km from the smelting works. The second site was an apple orchard at Long Ashton at a distance of 9.3 km from the smelter.

Sampling method

The formalin method (Raw, 1959) was used to extract the earthworms from the soil for population estimates and metal determinations. Each worm sample consisted of the number emerging in a 0.25 m2 quadrat and ten samples were taken at each site.

Measurements

Concentration of lead, zinc and cadmium in worms tissues were estimated by atomic absorption spectroscopy.

[ref. ID; 6009]

Test system

Optimized design for earthworm survival test in soil

Strains

The worms had been freshly obtained from a commercial angling-bait supplier in Ontario.

Test design

Measurements

Mortility.

Evaluations

Probability.

[ref. ID; 6073]

Test system

The concentration of volatile chlorinated hydrocarbons in worms sampled from contaminated site and the effect of TCE on worms

Toxicants

cis-1.2.-Dichloroethene, Dichloromethane, 1.1.1.-Trichloroethane, Trichloroethene (TCE), Tetrachloromethane, Trichloroacetic acid (TCA).

Test design

Field study: Earthworms were collected in the northern part of the Black Forest near Pforzheim (west Germany). The worms were collected with electricity using the Octet-Method (Thielemann, 1986).

Laboratory study: 10 Lumbricus terrestris were kept in closed boxes (32x25x10 cm = 8 litres) containing 4 litres of uncontaminated natural soil.
  • Box 1: 100 ml m-3 TCE, 15 days.
  • Box 2: 500 ml m-3 TCE, 15 days.
  • Box 3: 5000 ml m-3 TCE, 9 days.
  • Box 4: On wet blotting paper without soil, 500 ml m-3 TCE, 15 days.
  • Control box: 15 days.

    Measurements

    The concentrations of cis-1.2.-Dichloroethene, Dichloromethane, 1.1.1.-Trichloroethane, Trichloroethene (TCE), Tetrachloromethane, Trichloroacetic acid (TCA) in worms.

    [ref. ID; 6075]

    Test system

    The EDX-measurements on different tissue samples

    Toxicants

    Sewage sludge (including Chromium, Nickel, Copper, Zinc, Cadmium, and Lead).

    Test design

    Artificial soil test method. 3 litre test container: Artificial soil + sewage sludge (uncontaminated treatment (control), contaminated treatment) + 3 earthworms. 8 weeks, 10 degrees C.

    Measurements

    The concentration of heavy metal in tissue of worm using EDX-spectrometer.

    [ref. ID; 6078]

    Test system

    Mercury concentrations in surface soils (0-2 cm), grass (Festuca rubra L.) and earthworms (Lumbricus terrestris L.)

    Samples

    Within 0.5 km and 10-30 km around a chlor-alkali works (The chlor-alkali process is recognised as a potential industrial emission source of mercury).

    Measurements

    L. terrestris were killed by deep-freezing and, after thawing, their gut contents removed prior to digestion. Digestions were carried out in Kjeldahl flasks using a concentrated 'Analar' nitric/perchloric acid mixture (4:1). Initial digestion in the cold followed by careful heating was found to prevent any evaporation losses of mercury. Digests were analysed for total mercury with a Varian AA4 atomic absorption spectrophotometer.

    [ref. ID; 6101]

    Test system

    Sublethal toxicity test (Sperm count as a biomarker for environmental toxicology)

    Strains

    Adult L. terrestris, purchased from Carolina Biological Supply (Burlington, NC).

    Toxicants/concentrations

    Technical chlordane (6.25, 12.5 and 25 ppm) and cadmium nitrate (100, 200 and 300 ppm).

    Test design

    The artificial-soil (AS) protocol described by Greene et al. (1989). Adult earthworms, in groups of nearly equivalent masses (4-6 g) were then exposed to chlordane or cadmium mixed with 100 g of AS in 250-ml glass jars, which were maintained in the dark at 10 degrees C within an environmental chamber.

    Measurements

    Sperm counts, body mass weight.

    [ref. ID; 6699]

    Test systems

    Effect of soil organic matter content for the bioavailability of malathion

    Strains

    National Association of Supplies Bait and Tackle, Marblechead Ohio.

    Toxicants

    Malathion (surface exposure 50 ug/cm2).

    Test design

    1000 mL glass beaker filled with 600 mL of soil. Malathion was applied by fine mist. Exposures were run in triplicate with three worms replicate, at 10 degrees C, on a 12-hr day/night cycle, during 72 hr.

    Measurements/observations

    Cholinesterase activities in worm tissue, marathion body burdens.

    [ref. ID; 6744]

    Test system

    Effect of time and mode of depuration on tissue copper concentration

    Strains

    From Walker Organics, West Creiglee Farm, Roddymoor, Crook, County Durham, UK. Individuals with fully clitellate (mean fresh weights: 1394+/-94 mg).

    Toxicant/concentrations

    Cu(NO2)3/3H2O, 350 mg Cu kg-1.

    Test design

    Culture period 28 days. Depuration method: 1) Depuration time (0, 24, 36, 48, and 72 hr). After depuration the filter papers (Whatmann no.540) were dried at 40+/-1 degrees C for 24 hr and re-weighed. The earthworms were rinsed in ultrapure deionised water, dried on tissue paper and immersed for 20sec in boiling ultrapure water. 2) After depuration for 0, 24, 36, 48 or 72 hr, the earthworms was dissected following immersion in boiling water for 20sec. The earthworms were slit open to expose the alimentary canal, which was cut from above the crop to the bottom of the intestine. Each earthworm was pinned open onto a wax board and a small brush was used to carefully remove the soil particles present in the crop, gizzard and intestine.

    Measurements/observations

    The concentration of Cu and Ti in tissues of worm.

    [ref. ID; 6748]

    Test system

    p,p'-DDE bioaccumulation from compost and soil

    Strains

    From uncontaminated soil.

    Toxicants

    Soil (56% sand, 36% silt, 8.0% clay, 1.4% organic carbon, and bulk density 1.14 g/cm3) containing p,p'-DDE residues as a result of historical application of DDT was collected from the Conneticut Agricultural Experiment Station's experimental farm. 474+/-59.3 ng p,p'-DDE/g of soil dry wt.
    Compost aged approximately 6 months was collected from Lehigh Country, PA, USA. It contained 37.0% organic carbon and had a bulk density of 0.61 g/cm3. The compost contained p,p'-DDE residures. 539+/-79.8 ng p,p'-DDE/g compost dry wt.

    Test design

    350 g each dried, seived medium (soil and compost) were mixed with 30 g of Perlite added to seven 1000-ml glass beakers (3 replicates + no-worm control). 4 individuals (approximately 9 g biomass) added each beakers. 22+/-2 degrees C in dark.

    Measurements/observations

    Biomass of worm and p,p'-DDE concentration in the worm tissue.

    [ref. ID; 6753]

    Test systems

    CbE activity in L. terrestris and evaluate its use as a complementary biomaker of anti-ChE pesticide exposure

    Strains

    A local commercial supplier (Armeria 20, Toledo, Spain), who imported from a commercial vermiculture supplier (Vivastic, Elsenheim, France).

    Toxicants

    Chlorpyrifos-oxon

    Test design

    Evaluation

    IC50.

    [ref. ID; 6763]

    Test system

    Strains

    Adult earthworms were provided by Edwin Berry, National Soil Tilth Laboratory, USDA Agricultural Research Service, Ames, Iowa. The earthworms species used were Lumbricus rubellus (weighing 0.80-1.21 g), Aporrectodea trapezoids (weighing 2.15-2.57 g), Lumbricus terrestris (weighing 5.08-6.23 g).

    Toxicants

    Plasmid: pJP4, Donor: Alcaligenes eutrophus JMP222N, Recipient: Pseudomonas fluorescens C5t

    Test design

    Soil: A Hubbard loamy sand (Udorthenic Haploboroll).
    Microcosm: The microcosm consisted of a polyvinyl chloride tube (50 by 10 cm diameter) which was cut into eight 5-cm segments. The remaining 10-cm segment served as the headspace.

    Experimental design

    Soil microcosms containing spatially segregated, coinoculated donor and recipient strains, inoculated control (donor and recipient strain only) soil microcosms, and uninoculated control soil microcosms. Triplicate microcosms for each of the four treatment (i.e., no worms, L. rubellus, A. trapezoides, and L. terrestris). 3 adult earthworms added to surface of the microcosm. (The final earthworms density was equivalent to approximately 100 earthworm per m2 of soil. 20 degrees C. Experimental period 2 weeks.

    Measurements/observations

    Vertical distribution of earthworms number. Donor, recipient, transconjugant bacteria number of casts and cocoon.

    [ref. ID; 6770]

    Test system

    Risk assessment of GEMs

    Genetically engineered microorganisms (GEMs)

    Pseudomonas fluorescens DSM 50148. It was transformed with plasmid pFL105, conferring resistance to sulfonamides and kanamycin. This chimeric replicon contains RSF1010 and an EcoRI fragment from plasmid K5 carrying the aphB (Km(r)) gene of Tn5 undder control of the CaMV 35S promotor. Plasmid RSF1010 and derivatives have been stably maintained in a variety of Gram-negative bacteria including pseudomonades.

    Test design

    Plastic column with a diameter of 15 cm and a length of 50 cm was filled up with soil (the Agricultural Research Center at Braunschweig), compressed to a defined bulk density of 1.37 g cm-3 and kept at 12 degrees C. The water content of the soil was 17% (weight:weight; +/-0.5%). One worm (15 cm length) introduced into column, and then, was fed with 500 ul of a culture of GEMs containing 10E9 cells per ml and 1 g dry food (cow dung).

    Measurements/observations

    Number of GEMs (CFU) in L. terrestris excreta.

    [ref. ID; 6803]

    Test system

    Food-chain transfer of Cadmium and Zinc

    Strains

    From a commercial supplier (Blades Biological) mass, 5.38+/-1.25 g, n=50.

    Toxicants

    Urtica dioica grown for 63 days under hydropoic conditions in Hoagland's solution spiked with Cd (CdSO4/8H2O: 0, 1, 2, 3, and 6 mg Cd/L) or Zn (ZnSO4/7H2O: 0.02 (control), 5, 10, 20 and 50 mg Zn/L).

    Test design

    Earthworms were placed individually in 0.5-L, black plastic bottles (diameter, 77.0 mm; height 176.5 mm) that had been filled 24 hr earlier with 375 g of air-dried Kettering loam (Broughton Turf and Loam Management) and 125 g of deionized water; the bottles were secured with venting lids. After a further 24 hr, 0.6 g of crushed, air-dried U. dioica leaves were placed on the soil surface of each bottle. The bottles were placed in a randomized block design, with five replicates for each Cd and Zn concentration in the controlled-environment chambers at 15 degrees C and 80% humidity under a 16:8-hr artificial light:dark photoperiod, although the black bottles ensured complete darkness. After 7 days, any uneaten food was removed from the soil surface and replaced with another 0.6 g of the appropriate leaves. This was repeated every 7 days for 28 days.

    Measurements

    Cd and Zn concentration in the body tissue of worm.

    [ref. ID; 6850]

    Test system

    The use of acid insoluble residue as a marker fraction in the soil

    Strains

    Lumbricus terrestris, Allolobophora longa, Allolobophora caliginosa, Allolobophora chlorotica were collected from the soil in Rothamsted Park. Eisenia foetida was collected from cattle manure. Mature, clitellate individuals for experimental use.

    Toxicants

    Zn, Cu, Cd, Pb. Soil sampling site; 4 soils (Frongoch, Ystwyth, Shipham, Broek Polder).

    Test design

    Groups of each species of earthworm were placed on separate subsamples of each soil. A ratio of approximately 5 g (live weight) Of earthworms to 600 g (air dry weight) of soil. Experimental period 15 days. Temperature 15 degrees C.

    Measurements/observations

    Heavy metals and AIR concentration in earthworm tissue.

    [ref. ID; 6856]

    Test system

    Depuration and uptake

    Strains

    From an Ontario commercial bait supplier. Sexually mature individuals for experiment use.

    Toxicants

    Iodine-[125], Cs-[134], Mn-[54], Zn-[65] and Cd-[109].

    Test design

    Litter was collected in the spring in a mixed forest region in southern Manitoba, Canada. A 1-kg wet-weight (69% moisture content) aliquot of litter was spiked, using multiple additions of 10 ml of the spike solution.

    Measurements/observations

    Weight and Gamma activity of worm.

    [ref. ID; 6858]

    Test system

    Life-cycle and biomarker responses to zinc in four earthworm species (Aporrectodea caliginosa, Eisenia fetida, and Lumbricus rubellus)

    Strains

    From a commercial supplier. Adult worm.

    Toxicants/concentrations

    Zn(NO3)2/6H2O aqueous solutions: 0, 190, 350, 620, 1200, 2000, and 3600 ug/g.

    Test design

    Zinc exposures were conducted in a natural soil-based test system. The soil used was a mixture of a commercially available sandy loam soil (Rockalls, Wokingham, Berkshire, UK) and commercially available Sphagnum peat (Bullrush Ltd, County Tyrone, UK). One kilogram of the soil mix was added to each experimental a container (plastic boxes 220x160x80 mm), with four replicate containers used for each test concentration. Water-holding capacity 60%. 6 worms per container. During exposure period, the test containers were covered to limit water loss and kept in constant light at 15 degrees C for 42 days. Finely ground fresh horse manure (dried and rewetted to 75% water content) was added as source of food (4 g dry weight per weekly to each container) in all tests.

    Measurements/observations

    Evaluations

    Significant differences in parameters were calculated using analysis of variance (ANOVA). When, differences were found, Tukey's multiple comparison test was used to determine differences between specific treatments.

    [ref. ID; 6894]

    Test system

    The role of middens formed by Lumbricus terrestris

    Sampling sites

    The samples were collected from a silt loam soil under a corn (Zea mays L.)-soybean (Glycine max L.) rotation in west-central Indiana U.S.A.

    Toxicants

    [14]C-Atrazine.

    [ref. ID; 6897]

    Test system

    To standardize the phagocytic activity assay in coelomocytes using flow cytometry

    Strains

    From a commercial supplier (St-Eustache, Quebec, Canada).

    [ref. ID; 6899]

    Test system

    Applications of toxicity curves and incipient lethal level (ILL) in assessing the toxicity of soil contaminant

    Strains

    From commercial suppliers.

    Toxicants

    Diazinon, PCP.

    Test design

    3 natural soil (Brookston Clay, Agriculture Canada Harrow Research Station; Guelph Loam, University of Guelph Arkell Research Station; Fox Sand, Agriculture Canada Delphi Research Station). The collection sites had known land-use histories and were considered to be free of pesticide contamination. Test soils (487.5 g dry wt) were weighed into 2-L clear glass jar. Water-holding capacity 80%. 10 worms per jars. Exposure period 21 days. 3 replicates.

    Measurements/observations

    Mortality (2, 4, 8, 16, 24, 48 and 96 hr, 5, 7, 14 and 21 days).

    Evaluations

    [ref. ID; 6902]

    Test system

    Strains

    From bait shops and acclimated in the laboratory for four months.

    Toxicants

    Parathion (Formulation E 605 forte Bayer, 50% a.i.) and Amitrole-Diuron (Ustinex).

    Test design

    OECD-Guideline 207 (OECD, 1984). Experimental period 28 days. Soil substrate (artificial soil or loamy natural soil (5.6% sand, 75% silt, 19% clay; 2.1% organic substance; pH 6.0; air-dried and sieved)), temperature (20 or 10 degrees C), soil moisture (82% or 51% Max. water capacity), way of application (mixing pesticide into the soil or spraying onto the soil surface). 1000 g (dry wt) soil and 3 worms per test container. Each container was supplied weekly with 2.5 g (dry wt) of a mixture of two-thirds air-dried, finely ground cow manure and one-third dried leaves of stinging nettle (Urtica dioica L.).

    Measurements/observations

    Mortality, weight, cocoon production, and behavioural changes.

    [ref. ID; 6903]

    Test system

    Sampling sites

    Earthworm population collected from four sites: the median strip of a busy street in Cracow; a city park (100 m from the busy street); a forest about 30 km from Cracow (100 m from a low-traffic local road); a forest on calcareous soil about 30 km from Cracow (distant from traffic).

    Toxicants

    Traffic pollution (Pb).

    Measurements/observations

    Species composition, population density and biomass of the earthworms. Lumbricus terrestris were analyzed Pb concentration in tissue and haemoglobin content.

    Evaluations

    Data were subjected to one way ANOVA with TUkey HSD range test, or Kruskal-Wallis one-way analysis by ranks and Spearman Rank Correlations (Sokal and Rohlf, 1981).

    [ref. ID; 6904]

    Test system

    Avoidance test

    Strains

    Adult worms, approximetly 4500 mg having a well developed clitellum (more than 6 weeks old).

    Toxicants

    Diazinon, Sevin, Safer Fruit and Vegetable Insect Killer, Lindane, Malathion, Orthene, Spectracide, Captan, Metaldehyde, Daconil.

    Test design

    A double layer of glass spheres, approximately 1.25 cm dia, underlying a wire mesh screen barrier, was placed into glass test chambers (30.5x25.4x5.1 cm). Each chamber was then divided into two sections of equal size using a glass divider. Soil mixture for each section of the test chamber was prepared by combining 190 g fine, synthetic potting soil (Hoffman Seed Starter containing vermiculite, peat moss, and limestone), 14 g dried, pulverized leaves, and 37 ml distilled water. Each pesticide was added to and blended thoroughly with the prepared soil mixture. 5 worms were added to each pesticide-soil mixture, and the earthworm-pesticide-soil combination was placed in one side of each test chamber. The test chambers were held in a dark room maintained at 13 degrees C for 48 hr.

    [ref. ID; 6905]

    Test system

    Acute lethality

    Strains

    Toxicants

    Diazinon (Basudin R 500 EC).

    Test design

    Measurements

    Mortality. Diazinon concentrations in worms.

    Evaluations

    7-days and 21-days LC50, BCF.

    [ref. ID; 6951]

    Test system

    Acute toxicity (7 and 14 days)

    Strains

    Strains supplied by Wolkins Bug House, Martinsville, Indiana.

    Toxicant/concentrations

    Benomyl (0.0, 0.03, 0.1, 0.3, 1.0, and 3.0 ppm).

    Test design

    Measurements

    Mortality and body weight.

    Evaluations

    LC50.

    [ref. ID; 6952]

    Test system

    LC50 and LD50

    Strains

    From local bait shop. Sexually mature worms weighing 4-5 g with well developed clitella were used.

    Toxicants

    Carbaryl, DDT, solvent (acetone, acetonitrile).

    Test design

    13 degrees c in the dark. Exposure period 1, 5, 7, 14, 21 days.

    Measurements/observations

    Weight loss, appearance of sores or swellings, coiling, and mortality.

    Evaluations

    LD and LC50 values were determined according to the method of Finney (1971).

    [ref. ID; 7014]

    Test system

    Avoidance test

    Strains

    From a local supplier.

    Toxicants/concentrations

    Brass powder (70% Cu, 30% Zn): 0, 17, 38, 120, 200 ug/g.

    Test design

    15 cm x 50 cm styrofoam chambers filled with nonsterile loam soil (600 g), distilled water (150 ml), and then the brass powder spike. The soil spiked with the brass powder was placed in one-half of the chamber and uncontaminated soil was placed in the other half. Five earthworms were added at the interface between the two soils. The cambers were placed randomly into a precision low-temperature incubator set at 13.0+/-0.2 degrees C. Exposure period 7 days.

    Measurements/observations

    The locations of the earthworms in the chamber.

    Evaluations

    The threshold avoidance concentration.

    [ref. ID; 7015]

    Test system

    LC/LD50 (5 days) and Immunoassay

    Strains

    From a commercial biological supply company.

    Toxicants

    Aroclor 1254 (hereon PCB)

    Test design

    Measurements/observations

    Evaluations

    Filter paper method: LC/LD50 by probit anaylsis.

    [ref. ID; 7016]

    Test system

    On-site method for assessing chemicals

    Strains

    From a local bait dealer.

    Toxicant

    Site: The Baird and McGuire Superfund Site, Holbrook, Massachusetts, a former site for mixing pesticide batches for resale, is a mixed upland/wetland forested area near Boston, Massachusetts.

    Test design

    The bioassay chambers were laid out in transects the area of suspected contamination and in a reference area. Field survey methods (distance and bearing) were used to tie the transect into known survey points (accuracy +/- 1.5 m). Plastic chambers (approximately 4-L) were placed into the soil by excavating soil to a depth of about 20 cm, which filled the container to about three-quarter capacity. The cambers permitted free flow water and air. Five L. terrestris were placed on the surface of soil, and then the camber was with cheesecloth cover secured with a rubber band. Exposure period 7 days.

    Measurements/observations

    Morbidity (burrowing, coiling, shortening, stiffening, swelling and lesions) and Mortality. Nine chemicals (alpha-chlordane, Chlordene, Endrin, gamma-chlordane, gamma-chlordene, p-DDD, p-DDE, p-DDT, Nonachlor) concentrations in worm tissue and soil.

    Evaluations

    [ref. ID; 7020]

    Test system

    24-hr Allogeneic cytotoxicity assay

    Strains

    From Golden West Cricket Co. (Paramount, CA) and Carolina Biological Suplly Co. (Burlington, NC).

    Toxicants

    Aroclor 1254.

    Test design

    Single pieces of 9-cm Whatman no.1 filter paper were placed flat on the bottoms of glass jars. 1 ml Aroclor 1254 (10 ug/cm2 paper) in acetone or acetone only (controls) was dropped onto the paper, wetting the entire surface. Acetone was allowed to evaporate overnight, 1 ml water was dropped onto the paper, and one worm was placed in each jar. Lids were adjusted loosely onto jars and then transferred to 15 degrees C incubator for 48 hr.

    Measurements/observations

    Cytotoxicity assay (trypan blue assay) and Lactate dehydrogenase assay by using coelomocytes.

    [ref. ID; 7026]

    Test system

    The effect of Edaphic factor (soil organic matter content, pH, and depth in soil profile) affecting toxicity and accumulation

    Strains

    From a bait shop.

    Toxicants

    Disodium Arsenate.

    Test design

    Soil (a beech-Scotch pine canopy, UK. Arsenic level 1.2 ug/g).

    Measurements/observations

    Mortality and arsenic concentration in worm tissues.

    Evaluations

    LC50.

    [ref. ID; 7084]

    Test system

    The potential for trophic transfer

    Strains

    From Carolina Biological Supply Company.

    Toxicants

    ZnCl2 (Zn2+: 4.7, 22.9, 52.7, 106.6, 130.7, 173, 259.6 275.8, 287.8, 372.5, 399.9, and 476.3 mg/kg)

    Test design

    Three earthworm were weighted and placed into each microcosm containing 300g of OECD artificial soil. pH approximately 6. Each microcosm was placed inside an incubator and held at 70% humidity and 16+/-3 degrees C on a 12 hr dark:light cycle. Exposure period 21 days.

    Measurements/observations

    Mortality, body weight, Zn concentration in worm (gut tissue, body tissue).

    [ref. ID; 7133]

    Test system

    Bioavailability

    Strains

    Isotopic enrichment of worms. Earthworms were equilibrated in [68]Zn-spiked backgroud soil (the outer perimeter of a storm-water pond basin in Owings Mills, Maryland, USA).

    Toxicants

    ZnCl2 only (0, 25, 50, 75, 100, 125, 150, and 175 mg/kg Zn). ZnCl2 (175 mg/kg Zn) + CaCl2 (0.1 M), or NaCl (0.04, 0.02, 0.017, 0.013, 0.0075 M)

    Test design

    One worm was placed in a plastic cup containing 300 g soil wet weight. Fifteen treatments were performed, with three replicate cups each. The worms were kept in a temperature-controlled incubator on a 16:8 light:dark cycle at 16.5 degrees C; humidity at approximately 60%. Exposure period 2 days.

    Measurements/observations

    [68]Zn/[66]Zn in worm of body tissues, gut tissues, organ tissues.

    [ref. ID; 7173]

    Test system

    Biotransformation

    Strains

    Toxicants

    As.

    Test design

    Mesocosm experiments: A contaminated bulk soil sample collected at DGC was thoroughly mixed with equal proportions of uncontaminated, unsterilized top-soil and John Innes No.1 compost in increasing amounts to give six soil mixtures (~5 kg) of increasing arsenic contamination. A 1:1 mixture of uncontaminated topsoil and compost was used as the control and contained 1.0 mg kg-1. Depurated L. terrestris were exposed to increasing soil As concentrations (1.0, 98, 183, 236, 324 and 436 mg kg-1) for a total period of 35 days. pH 5.9+/-0.4, moisture 31+/-1.3%.

    Measurements/observations

    These following material concentration in worm tissues, soil, and litter: Inorganic arsenite (As(III)), arsenate (As(V)), methylarsonate, dimethylarsinate, arsenobetaine and arsenoholine, trimethylarsineoxide and tetramethylarsonium ion, and four arsenosugar compounds (glycerol, phosphate, sulphonate, sulphate).

    [ref. ID; 7626 (in German)]

    Test system

    The chloragocyte-eleocyte transformation

    Strains

    Toxicants

    Benomyl, Carbofuran

    Test design

    Filter paper method.

    Measurements/observations

    Electronmicroscopical methods.