Your search resulted in 714 documents. Displaying 25 entries per page.
Soft rot tests with soils of different origins
1984 - IRG/WP 2226
In the BAM a comparative soft rot test with 9 different types of soil (one soil each from Canada, New Zealand and Switzerland and 6 soils from laboratories in Germany) were carried out. The pH values of the different soils ranged from 3.2 to 7.1, and the amounts of organic matter were between 4 and 44% (w/w). The test specimens - Pine sapwood blocks treated with different concentrations of a CCA p...
M Gersonde, W Kerner
Accidental mold/termite testing of high density fiberboard (HDF) treated with borates and N’N-naphthaloylhydroxylamine (NHA)
2003 - IRG/WP 03-10462
High density fibreboard (HDF) was made from beech and pine furnish (50:50) and treated with boric acid (0.1-3%), borax (0.1-3%) or N'-N-(1,8-naphthalyl) hydroxylamine (NHA) (0.1-1%) prior to gluing with urea formaldehyde (UF) resin in order to determine resistance to Eastern subterranean termites (Reticulitermes flavipes Kollar), the most economically important termite species in North Am...
S N Kartal, H H Burdsall Jr, F Green III
An unusual soft-rot decay pattern caused by the Ascomycete Hypoxylon mediterraneum (de Not.) J Miller
1984 - IRG/WP 1222
A distinct pattern of soft-rot decay has been observed for the fungus Hypoxylan mediterraneum (de Not.) J. Miller. This fungus also produced decay patterns typical of brown and white rot decay. The production of characteristic cavities by Hypoxylan mediterraneum was prolific in the hardwoods Eucalyptus maculata and Eucalyptus regnans, but infrequent in the softwoods, Pinus elliottii and Pinus radi...
D M Francis, L E Leightley
Fungus cellar and antisapstain field trial studies of six triazole fungicides
1995 - IRG/WP 95-30077
The efficacy of six triazole fungicides was compared using a fungus cellar soil bed test, a rapid antisapstain laboratory trial and a 36 week antisapstain field trial. After 21 months in the fungus cellar the mean soundness of radiata pine treated with 1.5 kg/m³ of cyproconazole, azaconazole, hexaconazole, tebuconazole, propiconazole and flusilazole in combination with 1.0 kg/m³ didecydimethyl a...
R N Wakeling, J G Van der Waals, R D Narayan, J B Foster, B E Patterson, P N Maynard
Soft rot test of copper/chrome/arsenic treated heartwood of three Malaysian timbers by the vermiculite-burial method. (+ correction document of 25 July 1990)
1990 - IRG/WP 2354
Heartwood of copper-chrome-arsenic (CCA) treated kempas (Koompassia malaccensis), tualang (Koompassia excelsa) and keruing (Dipterocarpus spec.) was found to be susceptible to soft rot in recent pole surveys. Standardized heartwood blocks were impregnated with 0 to 6.3% (w/v) CCA and challenged to decay for twelve weeks by a mixed inocula of Chaetomium globosum, Glenospora graphii, Humicula grisea...
R-D Peek, A H H Wong
The effect of copper/chrome/arsenic (CCA) treated timber on soil fungi
1981 - IRG/WP 1131
The aim of this investigation was to study the effect of CCA treated wood on the microflora of soil with particular reference to copper tolerant soft rot fungi. The IRG collaborative field experiment was designed to monitor the performance of a range of preservative treated hardwoods with particular reference to soft rot in CCA treated timber (Dickinson 1976) and site 33 of this experiment was use...
R J Murphy, D J Dickinson
Objectives of future collaborative soft rot tests
1972 - IRG/WP 209
Progress has been made towards acceptance of a defined laboratory test method for determining the toxicity of preservatives against soft rot fungi (Documents IRG/WP/201 and IRG/WP/208) and, at the 1971 meeting in Brussels, the framework of collaboration for the next phase of testing was discussed. Time available at Brussels did not permit restatement of objectives, consideration of the stages by w...
J G Savory
Evaluation of a laboratory soft rot test on basis of weight loss and residual strength
1989 - IRG/WP 2336
Based on the principles of different previously reported experimental procedures dealing with laboratory soft rot testing, a study was conducted on treated poplar and beech. Preservatives used were CCA, CCF, AAC, Azaconazole and TCMTB. Treated samples were exposed for three months in a vermiculite substrate to Chaetomium globosum. Evaluation was based on absolute mass loss, percentage weight loss ...
W Verbeke, J Van Acker, M Stevens
The development of soft rot decay in bamboo fibres
1992 - IRG/WP 92-1572
The development of decay by soft rot fungus Chaetomium globosum was investigated in young and mature culms of bamboo Phyllostachys virideglaucescens. Soft rot decay was influenced both quantitatively and qualitatively by the differing levels of lignification in the material. Weight loss was significantly greater in the younger culm compared with the older, more heavily lignified culm. The distribu...
O Sulaiman, R J Murphy
Potential toxicants for controlling soft rot in preservative treated hardwoods. Part 2: Laboratory screening tests using sawdust
1977 - IRG/WP 2101
A technique is described for the rapid screening of toxicants against microorganisms, represented by the brown rot, Gloeophyllum trabeum, and a natural inoculum from soft rotted wood. Sawdust, in this case from sapwood of Eucalyptus maculata, is pretreated with the candidate formulation and moistened before inoculation. Visual scoring of growth can be used to discriminate suitable candidates as ea...
J D Thornton
Production of monoclonal antibodies to Serpula lacrymans and their application in immunodetection systems
1993 - IRG/WP 93-10004
Monoclonal antibodies were produced against both whole cell mycelial extracts and exo-antigen extracts of the causative organism of dry rot, Serpula lacrymans. The antibodies were tested for cross-reactivity against fifteen strains of Serpula lacrymans and nine other fungal species. These species represented either other wood decay fungi or non-decay fungi commonly co-isolated with Serpula lacryma...
H Glancy, J W Palfreyman
Screening of fungal strains for wood extractive degradation
1998 - IRG/WP 98-10254
Fungal strains were screened for their ability to degrade apolar extractives in wood from scots pine. The degradation of total wood extractives by 91 different strains was monitored in stationary batch assays incubated for 6 weeks. The results obtained show that the ability of wood-inhabiting fungi to utilize wood extractives varied greatly, even for different isolates of the same species. Fungal ...
J Dorado, M J Martinez-Inigo, T A van Beek, F W Claassen, J B P A Wijnberg, R Sierra-Alvarez
The effect of stilbenes on decay fungi of birch and aspen
2000 - IRG/WP 00-10364
Fourteen species of decay fungi, mainly species growing on birch and aspen, one leaf spot fungus of birch and the pine canker fungus Gremmeniella abietina were used to investigate how the stilbenes resveratrol and pinosylvin influence their relative growth on malt agar. With some species the ability to decay with stilbenes impregnated wood was also studied. The concentration of pinosylvin needed t...
L Syrjälä, K Von Weissenberg, A Pappinen, L Paajanen
Studies in an accelerated soil bed facility on the decay susceptibility of U.K. grown spruce and pine poles treated with copper/chrome/arsenic (CCA) by pressurised sap-displacement. Part 1: Setting up of soil beds and initial soft rot results
1990 - IRG/WP 2344
The paper describes the methodology used in the construction and early operation of an accelerated soil bed facility used to examine the decay susceptibility of U.K. grown Scots and Corsican pine and Sitka and Norway spruce treated with C.C.A. by high pressure sap-displacememt. The design and control of the facility as well as the preparation, soil exposure and soft rot decay analysis of quarter p...
A Bruce, S D Hainey, G M Smith, B King, P D Evans
Soft-rot testing. Memo to CEN
1983 - IRG/WP 2206 A
1. Development of a single test procedure to assess performance of preservatives against soft rot fungi is an ideal that cannot be realised at present, if results are to be both reproducible between laboratories and pertinent to the practical requirements of individual countries.
2. Consensus opinion amongst members of Sub Group I - Soft rot tests, of Working Group II - Fundamentals of Testing, of the IRG, is that the immediate needs of CEN would be best answered by: (a) a code of recommended practice, (b) a multiplicity of test procedures, and (c) a degree of flexibility in test procedures.
3. The code of recommended practice should recognise the need for: (a) a pure culture, synthetic medium (sand or vermiculite + nutrients), single wood species test to be adopted by all laboratories as a common reference point of testing, (b) mixed inoculum and/or unsterile soil laboratory or fungus cellar tests which account for local variations in the fungal flora, (c) incorporation of a range of wood species where applicable (i.e. where mixed hardwoods comprise the main resource), (d) provision of local internal standards of known performance under field conditions, (e) incorporation of leaching procedures other than standard methods with deionized water (e.g. mild acid, milk alkali, ionic solutions of various salts) where applicable to local exposure conditions, (f) precise definition of the criteria used for establishing toxic thresholds (mass loss, strength loss, microscopic examination).
4. Initial screening tests should remain the province of the individual research worker.
5. The code of recommended practice should have the sole purpose of establishing provisional retention levels for subsequent confirmation by field trial.
6. IRG should list and approve test procedures considered adequate to establish toxic thresholds for preservatives against soft rot fungi.
7. It should be clearly understood that when using a series of test techniques, it is inevitable that a range of toxic thresholds will be obtained for the same preservative.
8. Guidelines should be drawn up for interpretation of test data for subsequent transformation to provisional retention levels.
9. Adoption of the broad principles outlines above is recognition of the dynamic nature of toxic thresholds. The additional information obtained by a more flexible, and complex, approach to testing may make interpretation more difficult but should provide data from which response of preservatives to varying biological and environmental hazards can be more realistically assessed.
10. It is recommended that CEN adopt, in principle, the basic philosophy of testing outlined above and move towards formulation of a Working Document in collaboration with IRG
J A Butcher, D J Dickinson
List of fungi in soft-rot tests
1975 - IRG/WP 105
This list gives information on the terrestrial and marine species and strains of fungi tested for soft-rot ability in pure culture with data on their decay activity in untreated wood. An index of the timber species tested is added. The compilation is based on 1) the list of soft-rot fungi of the former OECD Group (Doc.No. 27/DAS/CSI/M/559), Oct. 1968, prepared by R. Rösch and W. Liese, 2) informa...
G Seehann, W Liese, B Kess
Free radical process controlled by manganese peroxidase and lipid-related metabolites produced by Ceriporiopsis subvermispora
2001 - IRG/WP 01-10412
Ceriporiopsis subvermispora, a specific lignin-degrading fungus produced free unsaturated fatty acids (USFAs) including 9,12-octadecaienoic asid, together with saturated fatty acids (SFAs) at an incipient stage of cultivation on wood meal cultures. In prolonged cultivation period after two weeks, the amount of intact fatty acids decreased with increasing in organic hydroperoxide and TBARS producti...
T Watanabe, M Enoki, S Sato, Y Honda, M Kuwahara, N Shirai, K Messner
Effect of fungal degradation on the chemical composition of acetylated beech wood
2003 - IRG/WP 03-40267
This study investigated the impact of fungal attack on the chemical composition of acetylated wood. Beech wood acetylated to different degrees was exposed to decay by the white-rot fungus Trametes versicolor under solid-state fermentation conditions. Laboratory soil-bed assays were also conducted to study the degradation of acetylated wood by soft rot fungi and other soil-inhabiting microorganisms...
H Militz, Dong-won Son, L Gómez-Hernández, R Sierra-Alvarez
Depletion of preservatives from treated wood: Results from laboratory, fungus cellar and field test
1993 - IRG/WP 93-50001-07
This paper compares results of preservative component losses using a range of test procedures with several different water-borne preservatives. The data shows that laboratory leaching tests are in some cases comparable to, but in other cases significantly underestimate preservative component losses when compared with field or fungus cellar depletion tests. The results also suggest that preservativ...
L Jin, A F Preston
Influence of the content of organic matter of soil on the degradation of wood by soft rot fungi
1970 - IRG/WP 27
The degradation of wood specimen burried in the soil by soft rot fungi is influenced by a number of factors. These are in particular the water holding capacity, water content, content of organic matter, pH, content of mineral nutritive substances etc. The results of the interlaboratory tests, carried out within the IRG/WP let presume that the intensity of wood degradation occurs proportionally inv...
O Wälchli
Collaborative soft rot tests: Specific gravity loss resulting from soft rot
1973 - IRG/WP 227
It was proposed at the 5th meeting of Working Group II of the IRG in June 1973 in Lahti, Finland, that the specific gravity (swollen volume basis) of test blocks used in the IRG Collaborative Soft Rot Tests should be determined on all the blocks at the completion of the exposure period. Specific gravity determined on the basis of the oven dry weight and water swollen volume was selected because (1...
C R Levy
The use of organic wood preservatives in ground contact and the suitability of laboratory test procedures to determine their efficacy
1999 - IRG/WP 99-20175
Organic fungicides, such as propiconazole, have proven to be highly effective when used as a co-biocide in recently developed wood preservative formulations. They have however been ineffective when used as a stand alone preservative, particularly when used in ground contact (European Hazard class 4). Previous research, using the test methods of ENV 807 (1993), provided conflicting evidence regardi...
I J Herring, D J Dickinson
Mycoparasitism by some white rot fungi on blue stain fungi in culture
1986 - IRG/WP 1304
When studying biological control of blue stain an interesting phenomenon of parasitism by some white rot fungi on blue stain fungi has been encountered. The majority of the 22 tested white rot fungi act parasitically upon blue stain fungi. The most interesting species among them is Bjerkandera adusta (Willd. ex Fr.) Karst., causing almost complete or complete decoloration of the hyphae of the blue...
R Benko, B Henningsson
Bethoguard; A new wood protecting fungicide for use in metal free ground contact wood preservatives
2002 - IRG/WP 02-30301
Research has identified the limitations in both the spectrum of activity and permanence of organic biocides placed in wood in high hazard environments, particularly in the absence of heavy metals such as copper. More specifically, the control of soft rot decay in wood in soil contact has proven to be most problematic.
The new organic biocide, Bethoguard; an oxathiazine, has demonstrated excellen...
S C Forster, G R Williams, M Van Der Flaas, M Bacon, J Gors
Assessment of the biocontrol potential of a Trichoderma viride isolate in a field trial
1998 - IRG/WP 98-10252
A field trial has been set up near Dundee, to assess the biological control potential of a Trichoderma viride isolate T60. This isolate has been shown in laboratory tests to be particularly effective in protecting wood against certain basidiomycete decay fungi.
Wood was treated with T60 spores using vacuum-pressure impregnation in a pilot preservation plant. Scots pine and Sitka spruce stakes wer...
H F Brown, A Bruce