Your search resulted in 905 documents. Displaying 25 entries per page.
A comparison of fungal strains used in the bioassay of wood preservatives
1984 - IRG/WP 2220
Previously published data are presented relating to a number of strains of wood-destroying basidiomycetes (Coniophora puteana, Coriolus versicolor, Gloeophyllum abietinum, Gloeophyllum sepiarium, Gloeophyllum trabeum, Lentinus lepideus, Poria placenta, Fibroporia vaillantii and Serpula lacrymans) commonly used as test fungi in the bioassay of wood preservatives. The data, which has not been statis...
J Wazny, H Greaves
Field evaluation of anti-sapstain products
1987 - IRG/WP 3402
Product A based on methylenebisthiocyanate, product B based on methylenebisthiocyanate plus 2-thiocyanomethylthio-benzothiazole, product C based on 2-thiocyanomethilthio-benzothiazole and product D based on didecyl dimethil ammonium chloride plus 3-iodo-2 propynil butyl carbarnate were evaluated on Pinus radiata sawn timber as fungicides for sapstain and mould in the Sawmill Division of the Univer...
M C Rose, A Bedoya
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
Laboratory evaluation of water repellents as antisapstain treatment additives
1986 - IRG/WP 3382
Water repellent formulations consisting of five paraffin wax emulsions, three polyethylene wax emulsions, two polybutadiene resin emulsions, a polyester emulsion, and a ß-pinene polymer emulsion were subjected to water repellency tests on radiata pine sapwood. With one exception, the parafin wax emulsions were more effective water repellents than the alternative formulations and one of the paraff...
D V Plackett, C M Chittenden
Field test of wood preservatives with Nasutitermes rippertii RAMBUR in Cuba
1996 - IRG/WP 96-10181
A field test of wood preservatives was carried out with Nasutitermes rippertii RAMBUR in the vicinity of the Material Testing Centre „Alexander von Humboldt" in Santiago de las Vegas/ Havana (Cuba) for 12 and 24 months. Test specimens of Pinus sylvestris L., Picea abies (L.) Karst. and Fagus sylvatica L. with dimensions of 25 x 25 x 490 mm³ were arranged vertically or horizontally in a circle o...
W Unger
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
Dominant genera of fungi isolated from the surfaces of Sugi (Cryptomeria japonica D. Don) heartwood lumbers exposed at six test sites from northern to southern regions of Japanese islands
1999 - IRG/WP 99-10304
The surfaces of wood materials are disintegrated not only by sunlight and rainwater but also by microbes when exposed above ground condition. This paper deals with the investigation of fungi isolated from the surfaces of Sugi heartwood lumbers (W100 by T10 by L300 mm) exposed at an angle of 45° without ground contact for 16 months at the six test sites from northern to southern regions of Japan. ...
S Doi, M Mori, M Kiguchi, Y Imamura, M Hasegawa, S Morita, S Nakamra, Y Kadegaru
Chemically modified tannin and tannin-copper complexes as preservatives for wood
2001 - IRG/WP 01-30271
The efficacy of Mimosa tannin, chemically modified tannin, and tannin-copper complexes as wood preservatives was studied. When the tannin-ammonia-CuCl2 solutions were impregnated into wood specimens in a one-step procedure, a large quantity of the tannin-copper complex was fixed in the specimens. Little of the complex was leached from specimens by a weathering treatment, and these specimens showed...
H Yamaguchi
The movement of iron into field test stakes
1987 - IRG/WP 2284
Failed and sacrificial stakes recovered from the Westham Island field test site were examined for their iron content. Varying amounts were recorded, which were greatest in the failed stakes. The possible role of the iron taken up by the below ground portion of the stakes, in accelerating the decay process and/or the preservative leaching is under investigation. The reaction of the iron with the ch...
J N R Ruddick, P I Morris
Testing blue stain fungicides for joinery timber in combination with natural weathering
1976 - IRG/WP 268
Joinery timber in outside use becomes affected by blue-stain after a short time of exposure. This is especially the case with pine sapwood treated with unpigmented lacquer, but also with other timber species as well as different types of surface treatment. According to the basic investigations of BUTIN this is due to special types of blue-stain fungi, called "Lack-bläue" (lacquer blue-stain), in ...
H Willeitner
Impact of leachates from CCA- and copper azole-treated pine decking on soil-dwelling invertebrates
2002 - IRG/WP 02-50183
This study assessed the short-term effects on non-target soil invertebrates of leachates from a naturally durable hardwood and timber treated with two copper-based wood preservatives. Natural rainwater leachates from kwila decking, and radiata pine-decking treated with CCA or copper-azole, were collected and applied on mown lawn soil in Brisbane, Queensland. The soil study consisted of 5 treatment...
N Crumière, A House, M J Kennedy
Efficacy of termiticide treatments to soil in field tests in the southern United States
1994 - IRG/WP 94-30043
In standard ground-board and concrete-slab efficacy tests in the southern United States, termiticides provide several years of subterranean termite control depending on rates applied to the soil and test site location. Years of 100% control (as of February 1994) provided by each currently marketed termiticide applied at highest label rates under concrete slabs in our four primary test sites (Flori...
B M Kard, J K Mauldin
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
The ground proximity decay test method
2000 - IRG/WP 00-20205
A decay field test method, which has been recently proposed for the standardization by the AWPA, is described for evaluating the relative performance of wood samples in a severe above ground situation exposed to the weather. Data is presented on the relative performance of untreated control samples and standard preservative systems exposed at the same site at different time periods, or at differen...
A F Preston, P J Walcheski, K J Archer, A R Zahora, L Jin
Termite resistance of treated wood in an above-ground field test
1985 - IRG/WP 2241
A field test method has been developed for evaluating the susceptibility of wood products to termites in protected situations above ground. In this method fungal attack on the wood products is minimal, though decay has been observed in conjunction with termite attack in some specimens. Preliminary results from exposure of replicate wood samples treated with preservatives in Florida to Reticuliterm...
A F Preston, P A McKaig, P J Walcheski
Copper tolerance of various Antrodia vaillantii isolates
2001 - IRG/WP 01-10406
Copper based preservatives have been extensively used in the field of wood preservation. However, several brown-rot fungi to be tolerant to copper and consequently, efficacy of copper based wood preservatives may not be sufficient. Copper tolerance is especially by some fungi that are closely aligned to or included in genus Antrodia. The highest copper tolerance was found at some strains of wood r...
F Pohleven, A Malnaric, M Humar, C Tavzes
Methods to determine the efficacy of three water repellent additives in waterborne preservatives
1997 - IRG/WP 97-30142
The paper describes the methods used to determine the efficacy of three different water repellent additives in waterborne preservatives. The wooden samples used are pine (Pinus sylvestris) and spruce (Picea abies) that are treated with 9 different waterborne preservatives in retention for hazard class 3 (above ground commodities). There are two sample sizes exposed, cladding boards (19 x 148 mm) w...
F G Evans, B Nossen, K M Jenssen, L R Wilhelmsen, G Fuglum
Termite resistance of treated wood in an above-ground field test
1986 - IRG/WP 1300
This paper provides an update on the results from an above ground field test evaluating the effectiveness of wood preservatives against subterranean termites. Results for the one and two year inspections of treated southern pine sapwood exposed in Hawaii to Coptotermes formosanus are presented. Chromated copper arsenate is providing excellent protection as is the pyrethroid deltamethrin. Borate an...
A F Preston, P A McKaig, P J Walcheski
Fluoride and chromium concentrations in soil adjacent to remedially treated distribution poles
1996 - IRG/WP 96-50066
Soils adjacent to Rentex treated 'on-line' distribution poles were analysed for total fluoride and chromium content for comparison with background values of these elements. Soil samples 6 cm and 25 cm downslope of selected poles were recovered at 1 week, 1 month, 6 and 12 months after treatment. Background soil samples were taken 50 m from the poles at sampling times. Fourteen po...
D C R Sinclair, G M Smith, A Bruce, H J Staines, P Durrant
A field study on the suitability of the European lap-joint test
2001 - IRG/WP 01-20239
Within the framework of the European SM&T Research Project "Co-normative research on field tests for wood preservatives out of ground contact in conjunction with methods for preconditioning test specimens prior to test" (FACT) one aim was to establish the suitability of the European lap-joint test (as it is described in ENV 12037:1996) to assess wood preservatives in the field in EHC 3. Scots ...
M Grinda, Ö Bergman, H-V Borck, D Dickinson, P Esser, R Gründlinger, H Leithoff, S Molnar, L Paajanen, N Pfabigan, E D Suttie, F Thomassin, T Nilsson, J Van Acker, M Van Der Zee, A Voss
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
A field evaluation of modified and unmodified alkylammonium compounds
1987 - IRG/WP 3436
Laboratory soil block studies of alkylammonium compounds (AAC's) at Forintek and other research establishments have shown that they can prevent decay by standard wood-destroying fungi. Their performance in field tests, however, has been disappointing. Following investigation of possible causes for this poor field performance, stakes treated with modified AAC's were installed at W...
J N R Ruddick
The microbial ecology of treated birch stakes in a soil-bed
1983 - IRG/WP 1209
The microbial ecology of small birch stakes exposed in soil beds in two Fungus Cellars was investigated. Patterns of fungal colonisation and decay initiation are described in untreated birch and copper fluosilicate-treated stakes. Results are based on fungal isolation onto selective media and direct light microscopical observations of decay features. In untreated stakes there was a rapid build-up ...
C P Clubbe