SIST EN ISO 18311:2018

SLOVENSKI STANDARD
oSIST prEN ISO 18311:2016
01-julij-2016
Kakovost tal - Metoda za ugotavljanje vplivov onesnaževalcev na prehranjevanje
organizmov v tleh - Preskus Bait-lamina (ISO 18311:2016)
Soil quality - Method for testing effects of soil contaminants on the feeding activity of soil
dwelling organisms - Bait-lamina test (ISO 18311:2016)
Qualité du sol - Méthode pour tester les effets des contaminants du sol sur l'activité
alimentaire des organismes vivant dans le sol - Test Bait-lamina (ISO 18311:2016)
Ta slovenski standard je istoveten z: prEN ISO 18311
ICS:
13.080.30 Biološke lastnosti tal Biological properties of soils
oSIST prEN ISO 18311:2016 en,fr,de
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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oSIST prEN ISO 18311:2016

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oSIST prEN ISO 18311:2016
INTERNATIONAL ISO
STANDARD 18311
First edition
2016-01-15
Soil quality — Method for testing
effects of soil contaminants on the
feeding activity of soil dwelling
organisms — Bait-lamina test
Qualité du sol — Méthode pour tester les effets des contaminants
du sol sur l’activité alimentaire des organismes vivant dans le sol —
Test Bait-lamina
Reference number
ISO 18311:2016(E)
©
ISO 2016

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oSIST prEN ISO 18311:2016
ISO 18311:2016(E)

COPYRIGHT PROTECTED DOCUMENT
© ISO 2016, Published in Switzerland
All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized otherwise in any form
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Contents Page
Foreword .iv
Introduction .v
1 Scope . 1
2 Normative references . 1
3 Terms and definitions . 1
4 Principle . 2
5 Reagents and material . 3
5.1 Bait material . 3
5.2 Reagents. 3
6 Apparatus (equipment). 3
7 Procedure. 3
7.1 General . 3
7.2 Preparation of the bait-lamina strips . 4
7.3 Experimental design and test performance . 5
7.4 Examination of the bait-lamina strips . 7
8 Expression of results . 8
9 Validity of the test . 8
10 Statistical analysis . 8
11 Test report . 8
Annex A (informative) Use of the bait-lamina method for monitoring the biological quality
of soils .10
Annex B (informative) Examples are taken from one study performed in the Brazilian
[30]
Amazon forest in which the removal of the litter layer was used as stressor .11
Bibliography .14
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Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards
bodies (ISO member bodies). The work of preparing International Standards is normally carried out
through ISO technical committees. Each member body interested in a subject for which a technical
committee has been established has the right to be represented on that committee. International
organizations, governmental and non-governmental, in liaison with ISO, also take part in the work.
ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of
electrotechnical standardization.
The procedures used to develop this document and those intended for its further maintenance are
described in the ISO/IEC Directives, Part 1. In particular the different approval criteria needed for the
different types of ISO documents should be noted. This document was drafted in accordance with the
editorial rules of the ISO/IEC Directives, Part 2 (see www.iso.org/directives).
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. ISO shall not be held responsible for identifying any or all such patent rights. Details of
any patent rights identified during the development of the document will be in the Introduction and/or
on the ISO list of patent declarations received (see www.iso.org/patents).
Any trade name used in this document is information given for the convenience of users and does not
constitute an endorsement.
For an explanation on the meaning of ISO specific terms and expressions related to conformity
assessment, as well as information about ISO’s adherence to the WTO principles in the Technical
Barriers to Trade (TBT), see the following URL: Foreword — Supplementary information.
The committee responsible for this document is ISO/TC 190, Soil quality, Subcommittee SC 4,
Biological methods.
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Introduction
Ecotoxicological test systems are applied to obtain information about the effects of contaminants in
[38]
soil and are proposed to complement conventional chemical analysis . In addition to laboratory
tests with individual species from important organism groups (e.g. earthworms, enchytraeids, or
collembolans), functional tests can be used to assess the activity of the whole soil organism community
in situ in the field and, thus, the habitat function of soil. They are potentially useful for the evaluation
[1][11][12][26][28]
of the effects of chemicals on the soil , as well as for the long-term monitoring of the
[16][18][34]
biological quality of soils (see Annex A) . Data for these purposes are gained by standardised
methods since they can form the basis for far-reaching decisions (e.g. whether a given site should be
remediated or not). In fact, the lack of such standardised methods is one of the most important reasons
why functional methods have been so far relatively rarely used for the assessment of contaminated
soils or for soil monitoring purposes.
The bait-lamina test is an approach which is used to measure the feeding activity of soil organisms in
[23][35][36]
situ .
The important advantage of the bait-lamina method is its simplicity. Minimal training, special skill, or
equipment is necessary. In contrast to the measurement of other functional parameters, like organic
[22][25][27]
matter breakdown determined in a litterbag test , the bait-lamina method does not disturb the
soil substrate, needs only short exposure periods (few days up to few weeks), and is rapidly evaluated.
In temperate regions, the applicability and usefulness of the bait-lamina test for the comparison and
assessment of the influence of land use or chemicals on the feeding activity of soil communities has
[2][14][28][31]
been demonstrated several times . In addition, bait-lamina tests have also been applied in
[13][15][30]
the tropics .
In addition to measures such as microbial respiration or litter decomposition, feeding activity is one
[7][13]
of several functional parameters applicable for the assessment of the biological status of soils .
Recently, the bait-lamina test was used successfully in several case studies at which an environmental
[8][21]
risk assessment for polluted soils was performed . As a result of these works, the bait-lamina test
was included into the tool box for site-specific risk assessment [e.g. the TRIAD approach (see ISO 19204)].
In fact, it became part of the recommended battery of tests for the ecological risk assessment of soils in
[9]
Great Britain . In addition, in the context of a European soil monitoring programme, the method was
[4]
recommended for this purpose as well by the members of an EU Working Group .
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oSIST prEN ISO 18311:2016
INTERNATIONAL STANDARD ISO 18311:2016(E)
Soil quality — Method for testing effects of soil
contaminants on the feeding activity of soil dwelling
organisms — Bait-lamina test
1 Scope
This International Standard specifies a technique for determining the effects of anthropogenic impacts
(e.g. substances) in the context of the prevailing environmental conditions on the feeding activity of soil
organisms in the field. In addition, the use of this method for monitoring the biological quality of soil is
described (see Annex A). The breakdown of organic matter by soil invertebrates and microorganisms
is a crucial process that determines important soil functions such as nutrient availability for plants and
the maintenance of soil fertility. In addition, decomposing plant litter provides habitats and food for a
[33][34]
wide range of organisms, thus supporting biodiversity and ecosystem services .
This International Standard is applicable to all soils in which soil organisms are active. The use of the
bait-lamina test is independent from whether there is a litter layer or not. The sampling design of field
studies in general is specified in ISO 23611-6 (see also Reference [20]). The design can vary according
to the aim of the study as well as conditions (e.g. soil properties, contamination, etc.) of the site to be
investigated.
This International Standard is not applicable for semi-terrestrial or very shallow soils. It can be difficult
to use it under extreme climatic or geographical conditions (e.g. in high mountains).
2 Normative references
The following documents, in whole or in part, are normatively referenced in this document and are
indispensable for its application. For dated references, only the edition cited applies. For undated
references, the latest edition of the referenced document (including any amendments) applies.
ISO 11074, Soil quality — Vocabulary
ISO 23611-6, Soil quality — Sampling of soil invertebrates — Part 6: Guidance for the design of sampling
programmes with soil invertebrates
3 Terms and definitions
For the purposes of this document, the terms and definitions given in ISO 23611-6, ISO 11074, and the
following apply.
3.1
exposure time
period in which the bait-lamina strips are exposed in the field, usually in the mineral soil (3.2)
EXAMPLE In temperate zones: 10 d to 20 d; in tropical areas: 4 d to 8 d.
3.2
soil
topsoil with or without a litter layer (3.3)
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3.3
litter layer
layer of mainly dead plant organic material present on the surface of the topsoil, which is composed of
debris in different stages of decomposition
Note 1 to entry: Examples are leaves in orchards or forests or “turf” derived from permanent grass grown in
[5]
meadows .
3.4
contaminant
substance or agent present in the soil (3.2) as a result of human activity
3.5
contaminated site
site with areas of high concentrations of substances hazardous to soil (3.2) and soil functions (3.7)
Note 1 to entry: In many countries, contaminated sites are registered publicly as a consequence of a specific
legislation.
3.6
soil water content
mass of water evaporating from the soil (3.2) when dried to constant mass at 105 °C divided by the dry
mass of the soil and multiplied by 100
3.7
soil functions
description of the significance of soils (3.2) to man and the environment
Note 1 to entry: Important soil functions in the context of this International Standard include the following:
— control of substance and energy cycles as compartment of ecosystems;
— basis for the life of plants, animals, and man.
3.8
biodiversity
variability among living organisms from all sources, and the ecological complexes of which they are part
Note 1 to entry: This includes diversity within species, between species, and of ecosystems.
3.9
ecosystem services
benefits that humans recognise as obtained from ecosystems that support, directly or indirectly, their
survival and quality of life
Note 1 to entry: These include provisioning, regulating, and cultural services that directly benefit people and the
supporting services needed to maintain the direct services.
4 Principle
In this functional test, the feeding activity of soil animals is measured. The term “bait lamina” refers to
small perforated plastic strips that are inserted into the soil. An artificial mixture or natural organic
material (= bait) is exposed to soil organisms (e.g. earthworms, Collembola, Diplopoda, Enchytraeidae)
in the apertures of the strip. In principle, the loss of the bait material is assessed by counting the empty
apertures of the bait-lamina strips after a certain exposure time. The number of empty apertures (i.e.
areas from which the bait material has been removed) as well as their vertical distribution along the
strip are evaluated, and it is assumed that this reflects the feeding activity of soil animals.
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5 Reagents and material
5.1 Bait material
Organic material used as bait for soil organisms, e.g. a mixture of cellulose powder (70 %, preferably of
nutrient quality), finely ground wheat bran (25 %), and activated carbon powder (5 %).
5.2 Reagents
5.2.1 Hydrochloric acid (10 %), for cleaning of bait-lamina strips at contaminated sites (see 7.2).
6 Apparatus (equipment)
6.1 Bait-lamina strips
Plastic strips (PVC, of grey colour) of 120 mm × 6 mm × 1 mm, which have a pointed tip at the lower end.
In the lower part (85 mm) of each strip 16 bi-conical apertures of 1,5 mm diameter are drilled, which
are 5 mm apart from each other (see also Figure 1). The apertures should be numbered, starting with
number 1 (soil depth = 0,5 cm) and ending with number 16 (soil depth = 8,0 cm).
Bait-lamina strips are commercially available, either with bait-filled or with empty apertures.
6.2 Sharp tool
Tool formed like a thin screw-driver, long nail file or a barbecue skewer which is used to drill a small slit
into the soil in which the individual bait-lamina strips is inserted when the soil is too dry or compact.
7 Procedure
7.1 General
When testing the effects of soil contaminants on the feeding activity of soil dwelling organisms, usually
the bait strips are exposed at the potentially contaminated sites as well as at a reference site. The latter
is defined as a site which in terms of soil properties, land use, or climatic conditions does not differ from
the site to be assessed, except that it is not contaminated.
NOTE The use of the bait-lamina test for monitoring the biological status of soils is described in Annex A.
The test should be performed at times of the year where soil organisms are active (i.e. when unfavourable
environmental conditions such as low soil water content and/or extremely high temperatures do not
[8]
drive them into diapause). In detail, a soil temperature of 5 °C to 15 °C is recommended . The soil
water content should be sufficient for invertebrate activity (i.e. >20 %). Environmental conditions such
[24]
as climate or soil water content are expected to strongly influence the results , therefore the method
should preferably be applied for comparing the biological activity between closely situated plots (e.g.
contaminated sites versus reference areas). When performing this test in the field, the site should be
characterized (e.g. concerning climate such as precipitation, temperature, and land use). However, such
a characterization is not covered by this International Standard.
In addition, pH (ISO 10390), particle size distribution (ISO 11277) dry bulk density (ISO 11272), organic
carbon content (ISO 10694), nitrogen content (ISO 13878) actual soil moisture (ISO 11461 or ISO 11465),
and water holding capacity (ISO 11268-2) shall be measured. These parameters should be determined
in the same soil layer (i.e. the uppermost 8 cm of the mineral soil) or, if applicable, separately in the
uppermost mineral soil layer, the organic horizons, and the litter layer, in which the bait-lamina strips
are exposed. These parameters have to be determined once at the beginning of the test (exception: soil
moisture, this should be measured also at the end of the test).
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If the study is performed at a contaminated site, it is recommended to determine the identity and
concentration of the main contaminants.
7.2 Preparation of the bait-lamina strips
In the lower part (85 mm) of each bait-lamina strip 16 bi-conical apertures of 1,5 mm diameter are
drilled at 5 mm intervals (see also Figure 1). These apertures are the place where the bait is filled-in.
Their bi-conical form secures the stability of the bait-material inside the apertures. Different mixtures
can be used as bait-material, but the following mixture is recommended: cellulose (70 %), finely ground
wheat bran (25 %), and activated carbon (5 %). The latter component’s black colour facilitates the
differentiation between the bait material and soil particles when assessing the feeding activity at the
end of the test. It is very important to grind the bran as fine and homogenous as possible. Therefore, it is
recommended to sieve the grounded bran (mesh size: 0,25 mm). By doing so, not only the homogeneity
of the bait-material but also its stability in the apertures of the bait-lamina strips is improved.
The three components of the bait material shall be well mixed before water is added. The amount of
water cannot be given in detail but it should be enough in order to create a paste. Bait material shall be
sufficiently moist to hold together and fill the apertures of the plastic strip. Too much water can lead to
cracking upon drying causing the bait to fall out of apertures. Both, too dry and too wet baits, are not
stable. This work shall be performed by hand (see Figure 2). After air-drying of the strips, they shall be
visually inspected. All baits which show holes, small fissures, or ruptures shall be treated with the paste
of bait-material again until optically all baits are intact. The whole procedure does secure that the bait-
material remains intact inside the apertures of the plastic strips, in particular when they are inserted
into the soil. Prepared strips may be stored under dry conditions in plastic bags for up to six months.
Before starting a test, their integrity (no mould, holes, fissures, or ruptures in the baits) shall be checked.
Dimensions in millimetres
[24]
Figure 1 — Schematic view of individual bait-lamina strips
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Figure 2 — Three individual materials (left: activated carbon; above: finely ground wheat bran;
below: cellulose) and the mixture of the three components at right: the bait
Figure 3 — Filling of bait-material into the bait-lamina strips
7.3 Experimental design and test performance
The prepared bait-lamina strips are exposed in the soil for an appropriate period of time, depending
mainly on the climate, the soil properties, and the composition and abundance of the soil organism
community at the test site. On average, the exposure time lasts 10 d to 20 d in temperate zones (e.g.
References [8] and [12]) and 4 d to 8 d (partly 14 d) in tropical areas, e.g. Reference [30]. However,
there are experiences that these numbers can differ considerably: e.g. at coniferous forest sites in
[29]
Germany, with an acid soil with little macro-fauna, an exposure time of 49 d was used , and since
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only 13 % were consumed after this period, an even longer time would have been better. In a European
ring test performed at various grasslands, exposure times of 56 d and 112 d (including summer) were
[12] [32]
suitable while in a Polish forest bait-lamina were exposed for 33 d and 42 .
Because of these differences, it is recommended to determine the exposure time in a screening or
preliminary test, exposing a few bait-lamina strips (e.g. 5 to 10) for different periods of time in order to
[11]
identify the duration in which at least 30 % but preferably not all bait slits are pierced . For example,
at a tropical forest site the strips were exposed for 2 d, 4 d, 8 d, and 12 d. Based on the results of this
[30]
screening test, the optimal exposure duration was set to 7 d .
At the beginning of the test, the strips are inserted vertically by hand in the soil in a way that the
uppermost aperture is just beneath the soil surface. The depth of the insertion of the strips shall be
determined carefully, since it is often not really clear where the soil surface actually starts [e.g. due to
a litter layer or extended roots (turf)]. The main criterion is that each bait aperture is accessible to soil
organisms and that the way of exposure of all strips is similar. In dry soils as well as in those with high
clay content, the insertion by hand is often not possible. In such cases, a metallic tool shall be used [e.g.
a thin screw-driver, nail file, or barbeque skewer (see 6.2)]. However, it shall be ensured that the slits
made with this tool are not larger than the thickness of the plastic strip itself. The strips should always
be in close contact with the surrounding soil.
Finally, the location of the strips shall be marked since due to their colour and small size individual bait-
lamina strips are often difficult to find, especially after long exposure periods (see Figure 4).
Figure 4 — Bait-lamina strips at a forest site, showing how deeply they were inserted and their
marking by a band (height of the litter layer: 2 cm to 3 cm)
The question on how many strips have to be used at one site depends very much on the objective of
the study as well as the practical circumstances. Most often, the following approach is used, which has
originally been proposed by References [8], [35], [36]. It is usually used for the comparison of sites which
differ only in one factor (e.g. contamination, management): At each site, at least one plot [size: at least
10 m × 10 m, often much larger (up to 1 ha)], in which three to five subplots of bait-lamina are delimited,
each consisting of a group of 16 strips, inserted in a 4 × 4 grid within an area of about 30 cm × 30 cm.
Following recommendations by Reference [20], the statistical power is higher by decreasing the number
of strips per group (e.g. from 16 to eight), keeping the number of groups of bait-lamina strips per plot
similar (e.g. five) and increasing the number of plots (at least three). Such a design has recently been
used in the EU project EcoFINDERS when comparing two different agricultural measures at farm sites.
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The number of bait-lamina strips and/or of subplots of bait-lamina strips can be increased considerably,
meaning that their sampling is performed at several points in time (e.g. once per week). However, this
design has not been used in reality yet.
7.4 Examination of the bait-lamina strips
At the end of the exposure period, bait-lamina strips are carefully retrieved from the soil by hand and
cleaned from soil or organic particles. Afterwards (still in the field), they are visually assessed by
holding the strips against the light and the empty apertures are counted (see Figure 5). Number and
place, i.e. between No 1 (soil depth = 0,5 cm) and No 16 (soil depth = 8,0 cm) are recorded immediately
in a form. An aperture is counted as “pierced” if at least half of the bait has been taken. Measurement
parameters are the total number and the vertical distribution of empty apertures:
— the total number of “pierced” bait (i.e. apertures from which at least half of the organic bait material
has been removed) is taken as a measure of the feeding activity, often given in per cent of the total
of filled apertures for a group of strips exposed together (e.g. per subplot or plot);
— the vertical distribution of the feeding activity, i.e. the number of “pierced” baits at a given soil
depth, e.g. per cm depth, or, more often, per upper (0,5 cm to 4,0 cm soil depth) versus lower (4,5 cm
to 8,0 cm) soil layers.
NOTE 1 Either in the field or in the laboratory the visual assessment can be facilitated by using a portable or
bench-top light box for examining the strips. However, experience shows that this is not essential.
NOTE 2 The number of pierced baits is five, four, and seven (from top to bottom).
Utilized bait-lamina strips can be reused if refilled after soaking and cleaning in water. If used at
contaminated sites, cleaning in hydrochloric acid (10 %), followed by two runs in water, is recommended.
In case of doubt, used strips should be disposed.
Figure 5 — Visual examination of an individual bait-lamina strip at the end of a test
(Photograph: H. Hoefer)
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8 Expression of results
In the bait-lamina test, the main end point is the feeding activity. Results of the bait-lamina test are
usually expressed as follows:
— description of the mean feeding activity (± standard deviation) as percentage of pierced baits, e.g.
on reference versus impacted plots (typ
...