Registration Dossier

Ecotoxicological information

Toxicity to microorganisms

Currently viewing:

Administrative data

Link to relevant study record(s)

Referenceopen allclose all

Endpoint:
toxicity to microorganisms, other
Type of information:
read-across from supporting substance (structural analogue or surrogate)
Adequacy of study:
weight of evidence
Justification for type of information:
In an environmental context the speciation will be controlled by the prevailing conditions and ions present, and will be the same regardless of the starting form. The properties of the members of the category are consistent across all endpoints.
The category hypothesis is that all the members are various ionised forms of the same parent acid. The main assumption is that sodium and potassium are not significant in respect of all the properties under consideration. For ammonium salts the properties and role of ammonia are given due consideration. In dilute aqueous conditions of defined pH a salt will behave no differently to the parent acid, at identical concentration of the particular speciated form present and will be fully dissociated. Hence some properties (measured or expressed in aqueous media, e.g. ecotoxicity) for a salt can be directly read-across (with suitable mass correction) to the parent acid and vice versa, and from one salt to another.
Reason / purpose:
read-across source
Duration:
30 d
Dose descriptor:
NOEC
Effect conc.:
200 mg/L
Conc. based on:
other: Phosphonate active acid equivalent
Basis for effect:
inhibition of total respiration
Endpoint:
toxicity to microorganisms, other
Type of information:
read-across from supporting substance (structural analogue or surrogate)
Adequacy of study:
weight of evidence
Justification for type of information:
In an environmental context the speciation will be controlled by the prevailing conditions and ions present, and will be the same regardless of the starting form. The properties of the members of the category are consistent across all endpoints.
The category hypothesis is that all the members are various ionised forms of the same parent acid. The main assumption is that sodium and potassium are not significant in respect of all the properties under consideration. For ammonium salts the properties and role of ammonia are given due consideration. In dilute aqueous conditions of defined pH a salt will behave no differently to the parent acid, at identical concentration of the particular speciated form present and will be fully dissociated. Hence some properties (measured or expressed in aqueous media, e.g. ecotoxicity) for a salt can be directly read-across (with suitable mass correction) to the parent acid and vice versa, and from one salt to another.

Justification for read-across between ATMP acid and DTPMP sodium salt:
DTPMP acid is a member of the DTPMP category, which is comprised of the acid form and various salts of the same acid. DTPMP is an example of the aminomethylenephosphonic acid class. The justification for read across of a property to a DTPMP registration data set from a study conducted with a different phosphonate is discussed in the context of a wider analogue group formed by the aminomethylenephosphonate class of substances. This analogue group sets a context for these structurally-similar complexing agents and readacross within this analogue group is appropriate in many cases, subject to specific considerations relevant to the endpoint in question.

The registration substance is part of an analogue group (see Section 1 of the CSR for more details) which consists of several phosphonates that share a common chemistry incorporating alkyl backbones with one or more tertiary amine centres and multiple methylphosphonate groups present.

DTPMP acid (CAS 15287-60-8) has three amine centres (five methylphosphonate groups), connected by ethyl chains. ATMP acid (CAS 6419-19-8) has three methylphosphonate groups connected by a central amine nitrogen. As well as being structural analogues, both phosphonates have consistent chemical properties including high MW (573 and 299 respectively), very low log Kow (<-3 for both substances) and are highly soluble in water. Both DTPMP and ATMP are very strong chelators with the ability to bind to inorganic surfaces. The substances in question generally posses similar physico-chemical properties and are not readily biodegradable.

In addition to the similarity in physico-chemical properties, the read-across for this short-term exposure endpoint is supported by similar short-term aquatic ecotoxicity. Both DTPMP and ATMP indicate very low short-term toxicity to freshwater invertebrates (7500 and 300 mg/l respectively). Short-term toxicity to fish is also low for DTPMP and ATMP with LC50 values of 216 and 160 mg/l respectively and furthermore long-term NOEC for toxicity to fish is around 25 mg/l for both substances.


Justification for read-across between HEDP acid and DTPMP sodium salt:
DTPMP acid is a member of the DTPMP category, which is comprised of the acid form and various salts of the same acid. DTPMP is an example of the aminomethylenephosphonic acid class. The justification for read across of a property to a DTPMP registration data set from a study conducted with a different phosphonate is discussed in the context of the general context of organophosphonate complexing agents, subject to specific considerations relevant to the endpoint in question.

DTPMP acid (CAS 15287-60-8) has three amine centres (five methylphosphonate groups), connected by ethyl chains. HEDP acid (CAS 2809-21-4) is a bisphosphonate structure with two phosphonate functional groups attached to ethanol. Whilst not directly structurally comparable, both phosphonates have consistent chemical properties including very low log Kow (<-3 for both substances) and are highly soluble in water. Both DTPMP and HEDP are very strong chelators with the ability to bind to inorganic surfaces. The substances in question generally posses similar physicochemical properties and are not readily biodegradable.

In addition to the similarity in physicochemical properties, the read-across for this short-term exposure endpoint is supported by similar short-term aquatic ecotoxicity. Both DTPMP and HEDP indicate very low short-term toxicity to freshwater invertebrates (7500 and 530 mg/l respectively). Short-term toxicity to fish is also low for both DTPMP and HEDP with LC50 values of 216 and 200 mg/l respectively.
Reason / purpose:
read-across source
Duration:
30 d
Dose descriptor:
NOEC
Effect conc.:
200 mg/L
Conc. based on:
other: Phosphonate active acid equivalent
Basis for effect:
inhibition of total respiration
Endpoint:
toxicity to microorganisms, other
Type of information:
experimental study
Adequacy of study:
weight of evidence
Reliability:
2 (reliable with restrictions)
Rationale for reliability incl. deficiencies:
study well documented, meets generally accepted scientific principles, acceptable for assessment
Qualifier:
no guideline followed
Principles of method if other than guideline:
Non-quantitative study of effect of increasing concentration of test substance on the sewage treatment process
GLP compliance:
not specified
Vehicle:
no
Test organisms (species):
activated sludge
Test type:
not specified
Water media type:
not specified
Limit test:
no
Duration:
30 d
Dose descriptor:
NOEC
Effect conc.:
200 mg/L
Nominal / measured:
nominal
Conc. based on:
not specified
Basis for effect:
other: sewage gas production volume
Duration:
30 d
Dose descriptor:
LOEC
Effect conc.:
500 mg/L
Nominal / measured:
nominal
Conc. based on:
not specified
Basis for effect:
other: sewage gas volume reduced and fermentation delayed
Details on results:
At 50 mg/L Dequest 2000 showed no effects.
At 100 and 200 mg/L the start of fermentation was delayed, but constant gas volume was achieved in the same period as in the control.
At 500 mg/L Dequest 2000, the system was strongly disturbed, as indicated by a late beginning of fermentation, and greatly reduced sewage gas production volume.
Conclusions:
A non-standard study of effects on sewage treatment plant micro-organisms was conducted according to generally accepted scientific principles but lacks detail in the study report. The result of a lack of effects on respiration up to 200 mg/L provides reliable evidence.
Endpoint:
toxicity to microorganisms, other
Type of information:
experimental study
Adequacy of study:
weight of evidence
Reliability:
4 (not assignable)
Rationale for reliability incl. deficiencies:
secondary literature
Principles of method if other than guideline:
Method: other
GLP compliance:
not specified
Analytical monitoring:
not specified
Test organisms (species):
Photobacterium phosphoreum
Total exposure duration:
30 min
Details on test conditions:
Type: aquatic
Duration:
30 min
Dose descriptor:
EC0
Effect conc.:
> 2 500 mg/L

Result expressed as nominal concentration. Properties of the
test substance and evidence from other studies (where
concentrations were measured) indicate that nominal and
measured concentrations are likely to be in good agreement.

Endpoint:
toxicity to microorganisms, other
Type of information:
experimental study
Adequacy of study:
weight of evidence
Reliability:
2 (reliable with restrictions)
Rationale for reliability incl. deficiencies:
study well documented, meets generally accepted scientific principles, acceptable for assessment
Qualifier:
no guideline followed
Principles of method if other than guideline:
Non-quantitative study of effect of increasing concentration of test substance on the sewage treatment process
GLP compliance:
not specified
Vehicle:
no
Test organisms (species):
activated sludge
Test type:
not specified
Water media type:
not specified
Limit test:
no
Duration:
30 d
Dose descriptor:
NOEC
Effect conc.:
200 mg/L
Nominal / measured:
nominal
Conc. based on:
not specified
Basis for effect:
other: sewage gas production volume
Duration:
30 d
Dose descriptor:
LOEC
Effect conc.:
500 mg/L
Nominal / measured:
nominal
Conc. based on:
not specified
Basis for effect:
other: sewage gas volume reduced and fermentation delayed
Details on results:
At 50 mg/L HEDP showed no effects.
At 100 and 200 mg/L the start of fermentation was delayed, but constant gas volume was achieved in the same period as in the control.
At 500 mg/L HEDP, the system was strongly disturbed, as indicated by a late beginning of fermentation, and greatly reduced sewage gas production volume.
Conclusions:
A non-standard study of effects on sewage treatment plant micro-organisms was conducted according to generally accepted scientific principles but lacks detail in the study report. The result of a lack of effects on respiration up to 200 mg/L provides reliable evidence.

Description of key information

The available data provide a general weight of evidence of a lack of inhibition of micro-organisms at concentrations up to ca. 200 mg/L.

Key value for chemical safety assessment

EC10 or NOEC for microorganisms:
200 mg/L

Additional information

A reliability 4 EC50 value of >2500 mg/l has been determined for the effects of DTPMP on the bioluminescence of the bacterium Photobacterium phosphoreum (Grohmann and Horstmann 1989).

A non-standard study of effects on sewage treatment plant micro-organisms was conducted acco rding to generally accepted scientific principles but lacks detail in the study report. The study reports a lack of effects on respiration for 30 days up to 200 mg/L with ATMP and HEDP.

The data can be directly read across to DTPMP because they are structural analogues and because the effects observed may be due to acidification of the test media.

All these studies have been used as weight of evidence to determine the low toxicity of DTPMP to microorganism toxicity. The data from ATMP and HEDP has been used to determine the PNEC being non-limit results.