EVALUATION OF HEARTROT CAUSED PHELLINUS PINI AND RELATED YIELD LOSS IN PINUS SYLVESTRIS STANDS

Authors

  • Ziedonis Miklašēvičs Rezekne Academy of Technologies (LV)

DOI:

https://doi.org/10.17770/etr2019vol3.4081

Keywords:

Phellinus pini, Pinus sylvestris, wood poles for power lines

Abstract

Tree wounds are the starting points that may lead to heartwood discoloration and decay caused by invading micro-organisms such as heartrot caused Phellinus pini. Phellinus pini most frequently occurs on douglas–fir (Pseudotsuga menziesii), pine (Pinus sylvestris) and spruce trees (Picea abies). According to investigations made in this area, infection by Phellinus pini entries through felling scars or broken tops when Phellinus pini fruiting bodies (conks) on other trees are realising airbone spores. When spores land on a freshly wounded stem, the infection process starts. Internal decay is often difficult to detect because only Phellinus pini conks indicate its presence. In most cases the number of conks doesn’t exceed one-two pieces on the surface of inficied Pinus sylvestris stems. When wood poles for power lines are harvested in length from 10 to 16m in wood felling areas where the average height of Pinus sylvestris trees is more than 27m, the local distribution of heartrot doesn’t exceed for more than 1.5m above and below each conk, the conk is located in the middle part of the pole length, the speeed of pruning exceeds 4m/sek, the hight level of risk exists that the damaged with heart rot wood pole will be accepted as appropriate to quality requirements toward heartrot because after pruning the presence of conk would be vanished but the top and butt surfaces of pole’s won’t indicate heartrot. The evidence of heartrot will be checked only in the technological process of debarking before impregnation when Phellinus pini conk place indicates. The purpose of this study is to predict the influence of Phellinus pini on Pinus sylvestris stems and to provide operational and safety recommendations concerning the risky assessment and management of infected felling areas in harvest planning processes.

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References

. Conference paper-Allen E., Morrison D., Wallis G., 1996. Common Tree Diseases of British Columbia 178p. [Online]. Available: https://www.pfc.forestry.ca/diseases/CTD/index_e.html

. Journal: Arhipova N., Gaitnieks T., Donis J., Stenlid J., Vasaitis R., 2011. Butt rot incidence, causal fungi and related yield loss in Picea abies stands of Latvia. Canadian Journal of Forest Research, 41(12), pp.2337-2345

. Journal: Baumanis I., 1993. A complex research project: factors in Latvia affecting the health of pine (planting stock and young plantations), and recommended protective measures. Proceedings of the Latvian Academy of Sciences, Section B, 7(552), pp. 79-80.

. Book: Baumanis I., Jansons, Ā., Neimane U., 2014. Selection, genetics and seeding in Latvia. In: Daugavpils, 324 p.

. Journal: Bier, J.E., R.E. Foster and P.J. Salisbury. 1946. Studies in forest pathology. IV. Decay of Sitka spruce on the Queen Charlotte Islands. Can. Dept. Agric. Publ. 783. Tech. Bull. #56. 35 pp.

. Journal: Blanchette R.A., 1982. Decay and canker formation by Phellinus pini in white and balsam fir. Can. J. For. Res. 12: pp. 538-544.

. Book: Boyce, J.S. 1961. Forest Pathology. 3rd. Ed., McGraw-Hill, Toronto.

. Journal: Earle C.J., 2011. Pinus sylvestris (Scots pine) description. In: The Gymnosperm Databaswe. [WWWdokument]. [Online]. Available: http://www.conifers.org/pi/Pinus_sylvestris.php [archived in July, 2014]

. Journal: Etheridge D.E.,1972. True heartrots of British Columbia. Canadian Forest Service, Pacific Forest Research Center, Victoria, BC.Forest Pest Leaflet No. 55. 14 p.

. Journal: Hunt R.S., Etheridge D.E., 1995. True heart-rots of the Pacific Region. Forest Pest Leaflet No.55, Pacific Forestry Centre. 8 p.

. Journal: Kimmey J.W., 1964. Heart rots of Western Hemlock. Forest Pest Leaflet 90, U.S. Dep’t of Agriculture. Accessed 5 Mar. 2007. [Online]. Available: https://www.fs.fed.us/r10/spf/fhp/leaflets/Hearotweshem.htm

. Journal: Larsen M.J., Lombard F.F., 1979. A new variety of Phellinus pini associated with cankers and decay in white firs in southwestern Oregon and northern California. Can. J. For. Res. 9: pp.31-38.

. Journal:Lībiete Z., Jansons J., Zālītis T., 2009. Age structure and productivity of conifer stands in Latvia. Mežzinātne / Forest Science 19(52): pp.28-48.

. Book: Scharpf R.F., 1993. Diseases of Pacific Coast Conifers. USDA For. Service, Pacific Southwest Research Station, Albany, CA. USDA For. Serv. Handbook 521, June 1993. 199 p.

. Book: Shigo A.L., 1991. Modern Arboriculture. Shigo and Trees, Associates, Durham, NH. 424 p.

. Conference paper - Zeglen S., 1997. Tree wounding and partial-cut harvesting: A literature review for British Columbia. BC Min. Forests Pest Management Report No. 14, Vancouver Forest Region, Nanaimo, BC. 40 p.

. The technological investigations and ecological evaluation of manufacturing of wood poles for power lines.[Online]. Available: https:// llufb.llu.lv/dissertation-summary/engineering/Z_Miklasevics_l-a.pdf

. Evaluation of the effects of heart rot fungi on live tree structural stability. [Online]. Available: https://www.for.gov.bc.ca/.../WTReport-Effects-of-HeartRotFungi-June. [Accessed 2007].

. Assessment of the development of the forest industry

https://www.zm.gov.lv/public/ck/files/ZM/mezhi/.../1_pielikums.pdf. [Accessed 2011]

.. Opinion on the draft guidelines on forest and related development guidelines for 2015-2020. Available: VSS-489 ldf.lv/sites/default/files/faili/Par_mums/LDF_vestules/80_ldf_msnp_vss489.doc

. EN 14229. Structural timber-Wood poles for overhead lines

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Published

2019-06-20

How to Cite

[1]
Z. Miklašēvičs, “EVALUATION OF HEARTROT CAUSED PHELLINUS PINI AND RELATED YIELD LOSS IN PINUS SYLVESTRIS STANDS”, ETR, vol. 3, pp. 166–171, Jun. 2019, doi: 10.17770/etr2019vol3.4081.