Volume 6, number 2
 Views: (Visited 201 times, 1 visits today)    PDF Downloads: 947

Vats. R, Aggarwal. S, Bhardwaj. C. S. A Study of Preference of Wood by Termites in Ambala Region of Haryana State. Biosci Biotechnol Res Asia 2009;6(2)
Manuscript received on : May 03, 2009
Manuscript accepted on : July 03, 2009
Published online on:  28-12-2009
How to Cite    |   Publication History    |   PlumX Article Matrix

A Study of Preference of Wood by Termites in Ambala Region of Haryana State

R. Vats1, S. Aggarwal2, and C.S. Bhardwaj2

2SSA, Ambala India.

1Department of Zoology, Dayal Singh College, Karnal India.

ABSTRACT: Termites constitute a group of social insect of great economical importance. They cause serious damages to tree crops, timber and furniture etc. which are made up of cellulose. The present study deals with the preference of wood by the termites. Experiment was conducted by collecting different woods. The wood which was preferred by termites is Mangifera and Azadirachta and placed in category IV. Outer sap wood was more preferred by termites as compared to heart wood.

KEYWORDS: Preference of wood; Termites; Damage

Download this article as: 
Copy the following to cite this article:

Vats. R, Aggarwal. S, Bhardwaj. C. S. A Study of Preference of Wood by Termites in Ambala Region of Haryana State. Biosci Biotechnol Res Asia 2009;6(2)

Copy the following to cite this URL:

Vats. R, Aggarwal. S, Bhardwaj. C. S. A Study of Preference of Wood by Termites in Ambala Region of Haryana State. Biosci Biotechnol Res Asia 2009;6(2). Available from: https://www.biotech-asia.org/?p=8896.

Introduction

Termites are usually called “white ants” because the majority of them are white and small and live in large colonies much like the ants.  The great economical importance of the termites can be judged from the estimates of losses caused by them to crops and forests made from time to time by different workers (Bignell and Eggleton, 2000).  Termites prefer to feed on soft spring growth wood rather than hard woods and woods rich in natural chemical protectants. Some woods (e.g. red woods, cypress, and juniper) are less preferred by termites, but no wood is completely immune to attack. In general, termites prefer cellulose that is easy to obtain. E.g., in laboratory studies they prefer in this order:  loose cellulose fibers > paper > cardboard > softwood blocks > hard wood blocks.

Methodology

The field experiment was set up within the limits of subdivision Naraingarh of district Ambala from Nov 2006 to Oct 2007. Ambala lies on north eastern edge of Haryana between 27- 39”-45’ North latitude and 74- 33” 53’ to 76-36”- 52’ East longitude. It is bounded by district Yamuna nagar to south east. To its south lies Kurukshetra district while in its west are situated Patiala and Ropar district of Punjab and the Union Territory of Chandigarh. The Shivalik range of Solan and Sirmaur district of H.P. bounds the Ambala district in North and North-East. The height from the sea level is 900 feet.

For the present study different areas having termite infestation were observed and four sites were selected to set up different experiments during Nov. 2006 to Oct. 2007 in the Naraingarh subdivision of Ambala District. Preference of wood was observed in the above mentioned experiment by calculating species wise mean per cent loss of all the 3 experiments. All the species were compared on the basis of mean per cent loss and were categorized in different categories depending upon preference.

Experiment was conducted to observe the preference of wood. Four different plant species viz. Safeda (Eucalyptus sp.), Dhrek (Melia sp.), Shisham (Dalbergia sisoo) and Kikar (Acacia indica) were used. Small logs having both sap wood and heart wood were weighed and placed at the termite infested sites for six months. Final weight was calculated and per cent weight loss was compared to the earlier experiment of same duration i.e. six months.

Results and Discussions

Minimum three samples of all the eight wood species were studied by grave yard method. Only heart wood was placed without any seasoning or treatment. In another experiment four wood species were studied by same method in which sap and heart wood both were present.

On the basis of per cent loss of wood by termites during the test period, the resistance of tested wood or preference of wood by termites was graded into following various classes.

Mean per cent Termite resistance   Preference of wood
Loss Category   By termites
0-9.0 Very resistant I      Least Preferred
9.1-15.0 Resistant II      Less preference
15.1-20.0 poorly resistant III      Preferred
Above 20.0 Perishable IV      Most preferred

Eight species were investigated against the attack of termites with regard to their natural termite resistance quality and wood preferred by termites. Out of these, three species proved to be very resistant to termite viz. Shisham, Sal and Safeda which shows that these are least preferred by termites. These were placed in Category I, Table-11, where the mean per cent loss was below 10.0 i.e. very resistant. Weight loss vary for Eucalyptus 5.26 to 12.24 (mean per cent wt. loss 8.21) for Dalbergia 5.61 to 12.00 (mean per cent wt. loss 8.27) and for Shorea 5.93 to 12.50 (mean per cent wt. loss 8.66), Table 4, 6 & 8. It was revealed that these were not eaten by termites and if eaten, to very less extent. It may be due to the presence of other preferred wood species present near by. Other reason for natural resistance of these species may be due to presence of volalite substance in heart wood.

Acacia and Prunus is placed in category II, Table-11 and damaged caused to these woods is very less. Per cent weight loss vary from 10.42 to 21.10 (Mean per cent wt. loss 14.64) for Acacia. Per cent weight loss vary from 6.06 to 14.71 (Mean per cent wt. loss 9.76) for Prunus. Hence these woods are not preferred by termites, Table-4 & 5.

Damage caused to Melia sp. wood is also considerable i.e. between 16 – 20 (Mean per cent wt. loss) hence placed in category III, Table-11, In Melia sp. per cent loss vary from 12.67 to 22.58 and the mean per cent wt. loss was 17.36, so it is poorly resistant to termites, Table-6.

Table 1: Per cent Weight Loss of Wood Safeda (Eucalyptus sp.) due to attack by Termites.

S. No. Period of Attack Initial Weight (g) Final Weight (g) Total Weight loss Per cent wt. loss
1 2 months 190.00 180.00 10.00 5.26
2 3 months 174.00 162.00 12.00 6.90
3 6 months 196.00 172.00 24.00 12.24
  Total 560.00 514.00 46.00 8.21*

Table 2: Per cent Weight Loss of Wood Shisham (Dalbergia sisoo) due to attack by Termites.

S. No. Period of Attack Initial Weight (g) Final Weight (g) Total Weight loss Per cent wt. loss
2 3 months 255.00 238.00 17.00 6.67
3 6 months 250.00 220.00 30.00 12.00
  Total 701.00 643.00 58.00 8.27*

Table 3: Per cent Weight Loss of Wood Sal (Shorea robusta) due to attack by Termites. 

S. No. Period of Attack Initial Weight (g) Final Weight (g) Total Weight loss Per cent wt. loss
1 2 months 270.00 254.00 16.00 5.93
2 3 months 270.00 250.00 20.00 7.41
3 6 months 280.00 245.00 35.00 12.50
  Total 820.00 749.00 71.00 8.66*

Table 4: Per cent Weight Loss of Wood Kikar (Acacia indica) due to attack by Termites.

S. No. Period of Attack Initial Weight (g) Final Weight (g) Total Weight loss Per cent wt. loss
1 2 months 240.00 215.00 25.00 10.42
2 3 months 240.00 210.00 30.00 12.50
3 6 months 237.00 187.00 50.00 21.10
  Total 717.00 612.00 105.00 14.64*

Table 5: Per cent Weight Loss of Wood Jamoya (Prunus padus) due to attack  by Termites.

S. No. Period of Attack Initial Weight (g) Final Weight (g) Total Weight loss Per cent wt. loss
1 2 months 165.00 155.00 10.00 6.06
2 3 months 167.00 153.00 14.00 8.38
3 6 months 170.00 145.00 25.00 14.71
  Total 502.00 453.00 49.00 9.76*

Table 6: Per cent Weight Loss of Wood Dherk (Melia azadarach) due to attack by Termites

S. No. Period of Attack Initial Weight (g) Final Weight (g) Total Weight loss Per cent wt. loss
1 2 months 150.00 131.00 19.00 12.67
2 3 months 150.00 125.00 25.00 16.67
3 6 months 155.00 120.00 35.00 22.58
  Total 455.00 376.00 79.00 17.36*

Table 7: Per cent Weight Loss of Wood Mango (Mangifera indica) due to attack by Termites.

S. No. Period of Attack Initial Weight (g) Final Weight (g) Total Weight loss Per cent wt. loss
1 2 months 210.00 155.00 55.00 26.19
2 3 months 210.00 146.00 64.00 30.48
3 6 months 235.00 145.00 90.00 38.30
  Total 655.00 446.00 209.00 31.91*

Table 8: Per cent Weight Loss of Wood Neem (Azadirachta indica) due to attack by Termites.

S. No. Period of Attack Initial Weight (g) Final Weight (g) Total Weight loss Per cent wt. loss
1 2 months 220.00 170.00 50.00 22.73
2 3 months 220.00 162.00 58.00 26.36
3 6 months 226.00 152.00 74.00 32.74
Total 666.00 484.00 182.00 27.33*

Table 9: Per cent Weight Loss of Different Woods (including Sap and Heart Wood) due to Attack by Termites (After 6 months).

S. No. Wood Species Initial Weight (g) Final Weight (g) Total Weight loss Per cent wt. loss
1 Safeda

(Eucalyptus sp.)

1570.00 1270.00 300.00 19.11
2 Dhrek

(Melia azadarach)

1600.00 1100.00 500.00 31.25
3 Shisham

(Dalbergia sisoo)

790.00 510.00 280.00 35.44
4 Kikar

(Acacia indica)

2485.00 1450.00 1035.00 41.65

Table 10: Per cent Weight Loss of Different Woods due to Attack by Termites (After 6 months).

S. No. Wood Species Initial Weight (g) Final Weight (g) Total Weight loss Per cent wt. loss Per cent loss/month
1 Safeda

(Eucalyptus sp.)

196.00 172.00 24.00 12.24 2.04
2 Dhrek

(Melia azadarach)

155.00 120.00 35.00 22.58 3.76
3 Shisham

(Dalbergia sisoo)

250.00 220.00 30.00 12.00 2.00
4 Kikar

(Acacia indica)

237.00 187.00 50.00 21.10 3.52
5 Sal

(Shorea robusta)

280.00 245.00 35.00 12.50 2.08
6 Mango

(Mangifera indica)

235.00 145.00 90.00 38.30 6.38
7 Neem

(Azadirachta indica)

226.00 152.00 74.00 32.74 5.46
8 Jamoya

(Prunus padus)

170.00 145.00 25.00 14.71 2.45
  Total 1749.00 1386.00 363.00 20.75 3.46

 Table 11: Comparative Statement of Termite Resistance Class of different Wood Species

S. No. Name of Wood Species Tested Per cent weight loss Termite Resistance Class
    Range Mean  
1 Safeda (Eucalyptus sp.) 5.26-12.24 8.21 I
2 Dhrek (Melia azadarach) 12.67-22.58 17.36 III
3 Shisham (Dalbergia sisoo) 5.61-12.00 8.27 I
4 Kikar (Acacia indica) 10.42-21.10 14.64 II
5 Sal (Shorea robusta) 5.93-12.50 8.66 I
6 Mango (Mangifera indica) 26.19-38.30 31.91 IV
7 Neem (Azadirachta indica) 22.73-32.74 27.33 IV
8 Jamoya (Prunus padus) 6.06-14.71 9.76 II

The species (wood) which were most preferred by termites are Mangifera and Azadirachta. These were placed in Category IV, Table-11, where the mean per cent loss was above 20 i.e. perishable. It was found that these woods were eaten at very fast rate by termites and weight loss vary for Mangifera 26.19 to 38.30 (Mean per cent wt. loss 31.91) and for Azadirachta 22.73 to 32.74 (Mean per cent wt. loss 27.33) which is too high (Table-7 & 8).

It was further observed that outer sap wood is more preferred by termites as compared to heart wood. It is very clear from the observation of wood samples as presented in photographs of Dalbergia sisoo and Eucalyptus spp. This is also evident from the table 12, where the per cent weight loss in Eucalyptus is 19.11, Melia 31.25, Dalbergia 35.44 and Acacia 41.65. When this loss is compared with the loss caused to only heart wood in Table-10, it is very much clear that the preference of termite is sap wood instead of Heart wood. This might be due to the presence of volatile substances in the heart wood.

Similar experiment was conducted by Sen-Sarma in 1974 on 29 different wood species. He categorized these woods in five categories depending upon their termite infestation. We in our experiment also categorized the 8 species depending upon their termite resistance but only two species (Dalbergia and Melia) are common in our and Sen-Sarma experiment. In his experiment he compared outer heart wood region and inner heart wood region although, we compared the sap wood and heart wood in four wood species in our experiment.

In the field, preference for a particular cellulose resource is likely determined by its availability, size, textures and nutritional demand of the termite colony. There is some evidence that termites prefer wood that has been attacked by certain wood destroying fungi. Other fungi may deter termite feeding.

According to Juan A. Morales-Ramos and M. Guadalupe Rojas 2000; the feeding preferences of the Formosan subterranean termite, Coptotermes  formosanus Shiraki were tested in three separate experiments on 28 different wood species. Preference was determined by consumption rates. Birch (Betula alleghaniensis Britton) red gum (Liquidombar styraciflua L.) Parana pine (Araucaria angustifolia (Bert), sugar maple (Acer saccharum. Marsh) Pecan (Carya illinoensis Wangenh) and northern red oak (Quercus rubra L.) were most preferred species by C. formosanus in order of consumption rate. All of these species ere significantly more preferred than southern yellow pine (Pinus taeda L.) widely used for monitoring. Sinker cypress[=old growth bald cypress, Taxoduim distichum (L.)] western red cedar (Thuja plicata Donn), Alaskan yellow cedar (Chamaecyparis mootkatensis D.Don ), Eastern red cedar (Juniperus virginiana L.), sassafras [Sassafras albidum (Nutt)]  Spanish cedar (cedrella odorata L.), Honduras mahogany (Swietenia macrophyla King), Indian rosewood (Dalbergia latifolia Roxb.), Honduras rosewood (D. stevensonii Standl.) and morado (Machaerium sp.) Induced significant feeding deterrence and mortality to C. formosanus .

Laboratory tests to determine natural resistance of several Indian timbers have been carried out by Sen-Sarma (1963a.b,c, 1972; Sen-Sarma and Chatterjee 1965b, 1968) and Sen-Sarma et al. (1975). Natural termite resistance of eighty four Indian timber species has been tested so far by Sen-Sarma et al. (1975). Sen-Sarma (1970) has given an exhaustive account of various methods of laboratory evaluation of termite resistance of wood and wood products. Gupta and Sen-Sarma (1981) have investigated the anti-termite properties of some anthraquinone derivatives of teak. Heartwood of teak shows wide variation in termite resistance. Sen-Sarma and Thakur (1979b) are of the opinion that the termite resistance in teak is perhaps genetically controlled.

Various reports dealing with the status of termites on crops and trees in India have been reported and published by Sen-Sarma and Thakur (1983,1985,1986), Khan and Singh (1985), Nair and Varma (1985), Verma (1986), Sen-Sarma (1987), Das (1988), Verma (1989,1993), Cowie et al. (1989), Varma (1990), Bhanot et al. (1991) and Girdhar (1995).

Acknowledgments

Authors are thankful to the farmers of Naraiangarh region and officials of Agriculture Department, Haryana for their cooperation and guidance. Thanks to Coordinator, IGNOU, M.N. College, Shahbad (M) for providing lab facilities

References

  1. Bhanot, J. P., Verma, A. N. and Batra, G. R. Indian J. Agri. Sci., 61 (9)  :  688-691. (1991).
  2. Bignell, D. E., Eggleton, P. Termites in ecosystems. In: Abe, T., Bignell, D. E., Higashi, M. (eds) Termites: evolution, sociality, symbioses, ecology. Kluwer, Dordrecht, pp 363-387. (2000).
  3. Cowie, R. H., Logan, J. W. M. and Wood, T. G. Bull. Ent. Res., 79 : 173-84. (1989).
  4. Das, B. B. Indian J. Ent., 50 (3) : 298-301. (1988).
  5. Girdher, A. K. A study of The Biology of Microtermes obesi Holmgren (Isoptera : Termitidae) And Pest Status of Genus Microtermes in Haryana. Ph. D. Thesis Punjab University Chandigarh. (1995).
  6. Khan, R. M. and Singh, A. P. Entomon, 10 (3): 197-201. (1985).
  7. Nair, K. S. S. and Varma, R. V. For. Ecol. Manage., 12 : 287-303. (1985).
  8. Ramos, J.A.M. and Rojas, M. G. Journal of economic entomology, pp 516-523. (2000).
  9. Sen-Sarma,   P. K. Indian J. For., 10 (4) : 239-244. (1987).
  10. Sen-Sarma,   P. K. and  Thakur, M. L. Indian Forester, 109 : 868-881.( 1983).
  11. Sen-Sarma,   P. K. and  Thakur, M. L. J. Indian Acad. Wood  Sci., 16 (2) : 99-108. (1985).
  12. Sen-Sarma,   P. K. and  Thakur, M. L. Termite problems in fodder and fuelwood plantations in India and their management. Notn. Sem. Fuelwood Fodder Production from Wastelands, Dehradun (May 30-31, 1986) : 6pp with 4pp tables. (1986).
  13. Sen-Sarma,   P. K. and Thakur, M. L. Holzfor. U. Holzverw., 31 : 14-16. (1979b).
  14. Sen-Sarma,   P. K.,  Thakur, M. L., Mishra, S.C. and Gupta, B. K. Forest Research Institute, Dehra Dun : 187 pp. (1975).
  15. Sen-Sarma,   P.K. J. Indian Acad. Wood Sci.,1 : 119-121 (1970).
  16. Sen-Sarma,   P.K. Ecology and biogeography of the termites of India. In : Ecology and biogeography in India. (Ed. M. S. Mani), Dr. W. Junk E. V. Publisher, The Hague : 421-572. (1974).
  17. Sen-Sarma,   P.K.   Recent advances in termite research in India and future strategy.  In:  Progress in soil biology and ecology in India. (Ed.  G.K. Veeresh ), U.A.S., Habbal, Bangalore  :  236-250.( 1981).
  18. Sen-Sarma,   P.K.  and  Chatterjee,  P.N.  Indian  Forester, 91 : 805-813. (1965b).
  19. Sen-Sarma,   P.K.  and  Chatterjee,  P.N.  Indian  Forester, 94  :  694-704. (1968).
  20. Varma, R. V. Sociobiology, 17 (1) :155-166.( 1990).
  21. Verma, A. N..  J. Res., XVI (1) : 77-82. (1986).
  22. Verma, S. C. Indian J.  Forestry, 12 (1): 1-6. (1989).
  23. Verma, S. C. Indian J. Forestry, 16 (4) : 328-335. (1993).
(Visited 201 times, 1 visits today)

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.