A ni ( 1990 ) - INFLIBNETshodhganga.inflibnet.ac.in/bitstream/10603/39560/17/17...ogy 87 - 91. d ta...

REFERENCES

Abdollahzadeh, J., E.M. Goltapeh and H. Rouhani. (2006). Biological control of

sclerotinia stem rot (S. minor) of sunflower using Trichoderma species. Plant

Pathol. J., 5: 228-232.

Abou-Jawdah,Y., Sobh, H. and Salawah, A.(2002). Extract of petroleum ether was

more effective than methanol. J. Agric. food chem., 50: 3208- 3213.

Abu- Taleb, Amira M., El- deeb, Kadriya and Al- Otibi, Fatimah O. (2011).

Asessment of antifungal activity of Rumex vesicarius L. and Ziziphus spina-

Christi (L.) Wild. Extracts against two phytopathogenic fungi. African journal

of Microbiology Research, 5 (9). 1001-1011.

Adams, P.B. and Wong, J.A.L, 1991. The effect of chemical pesticides on the

infection of sclerotia of Sclerotinia minor by the biocontrol agent

Sporidesmium sclerotivorum. Phytopathology, 81: 1340-1343.

Adejumo T.O., T. Ikotun and D.A. FIorin. (2000). In-vitro anti-fungal properties of

some botanicals on Protomycopsis phaseoli p. 13 in: Book of Abstract, 28

Annual Conference of Nigerian Society for Plant Protection at Cocoa Research

Institute of Nigeria (CRIN), Idi-Ayunre Ibadan, 24th-28th Sept, 2000, 33pp.

Adekunle, A.T., Cardwell, K.F., Florini, D.A. and Ikotun, T. (2001). Seed treatment

with Trichoderma species for control of damping off of cowpea caused by

Macrophomin phaseolina. Biocontrol Sci. Tech., 11: 449-457.

Afolayan, A.J. (2003). Extracts from the shoots of Arctotis arctotoides inhibit the

growth of bacteria and fungi. Pharma. Biol., 41(1): 22-25.

Agnihothrudu, V. (1963). Some aspects of Mycological investigation at Tocklai. Two

and a Bud, 10(4):27-31.

Agnihothrudu, V. and Chandra Mouli, B. (1990). Blister blight of tea and its control.

The planters chronicle, pp: 205-217.

Aguin, O., Mansilla, J.P. and Sainz, M.(2006).In vitro selection of an effective

fungicide against Armillaria mellea and control of white root rot of grapevine

in the field. Pest Manag Sci. 62(3):223-228.

Akinyosoye, F.A. and M.K. Oladunmoye. (2000). Effect of extracts of Mirabilis

Jalapa on some selected fungi. Nigerian Journal of Microbiology, 14: 91- 94.

Akpomedaye, D.E. and B.O. Ejechi (1998). The hurdle effect of mild heat and two

tropical spices extracts on growth of three fungi in fruit juices. Food Research

International, 31: 339-341

Alam, S.M. and E. Islam. (2002). Effects of aqueous extract of leaf, stem and root of

nettleleaf goosefoot and NaCl on germination and seedling growth of rice. Pak.

J. Seed Technol., 1: 47-52.

Alam, S.M., S.A. Ala, A.R. Azim, M.A. Khan and R. Ansari. (2001). Allelopathy and

its role in agriculture. J. Biol. Sci., 1(5): 308-315.

Ali, M.A., M. Ali, M. Huq and M. Ahmed, 1993. In vitro studies on fungicides

against Colletorichumgloeosporoides (Penz). Sac. The die back of tea. S.L.J.

Tea Sci., 62: 25-31.

Almeida-Neto, M., and Lewinsohn, T.M. (2004). Small-scale spatial autocorrelation

and interpretation of relationships between phonological parameters. Journal

of Vegetation Science, 15: 561-568.

Alvindia, D. G. and Natsuaki, K. T. (2009). Biocontrol activities of Bacillus

amylolifaciens DGA 14 isolated from banana fruit surface against banana

crown rot- causing pathogens. Crop Prot., 28: 236- 242.

Amadioha, A.C. (1996). Control of storage rot of potato caused by Rhizopus oryzae.

International Journal of Pest Management, 42: 311–314.

Amadioha. A C. (1998). Control of Powdery Mildew in pepper (Capsicurn annum L.)

by leaf extracts of papaya (Carica papaya L.). Journal of Herbs. Spices and

Medicinal Plants, 6(2): 41-47.

Amadioha, A.C. (2000).Controlling rice blast in vitro and in vivo with extracts of

Azadirachta indica. Crop Protection. 19: 287-290.

Amadioha, A.C. and Obi, V.I. (1998). Fungitoxic activity of extracts from

Azadirachta indica and Xylopia aethiopica on Colletotrichum lindemuthianum

in cowpea. J. Herbs Spices Medi. Plants. 6:33-40.

Anita, S., Ponmurugan, P. and Marimuthu, S. (2013). Screening and bioformulation

of potential Trichoderma atroviride isolates against Phomopsis canker disease.

International Journal of Tea Science. 9(1): 20-27.

Anonymous (1985). ANVIL fungicide (pp 523): Technical Bulletin. Imperial

Chemical Industries PLC. Plant Protection Division. Pp.12. Fernhurst,

Haslemere, Surrey, England.

Annapurna, Y., Saktimitra, D.A., Iyengar, S., Rao, Negashushan. and Bhale Rao, U.T.

(1983). Antimicrobial activity of leaf extracts of Polyalthia longifolia.

Phytopathology Z. 106:183-185.

Arulpragasam, P.V.S., Adaickan and Kulatunga, S.M. (1987). Recent development in

the chemical control of Blister blight leaf disease of Tea Effectiveness of EBI

fungicides. S.L.J. Tea Science. 56(I):22-34.

Arunakumara, K.T., Kulkarni, M.S., Thammaih, N. and Hegde, Y. (2010). Fungicidal

management of early blight of tomato. Indian Phytopath. 63(1): 96-97.

Ashwani Tapwal, Rajesh Kumar, Nandini Gautam and Shailesh Pandey (2012).

Compatibility of Trichoderma viride for Selected Fungicides and Botanicals.

International Journal of Plant Pathology, 3: 89-94.

Athanassova, D. P. (1996). Allelopathic effect of Amaranthus retroflexus L. on weeds

and crops. Seisieme Conterence du columa. Journees Internationales Sr La

Luttr contre les mauviases herbs, Reims, France. 437-442.

Babu, C. M., and Kandasanmy, O. S. (1997). Allelopathic effects of Eucalyptus

globulus Labill.on Cyperus rotundus L. and Cynodon dactylon L. pers. Journal

of Agronomy and crop science 179(2): 123 – 126.

Baby, U.I. (2001). Diseases of tea and their management – A review, In: Plant Pathol.

PC Trivedi, (Ed.) Pointer Pub. Jaipur, India. pp. 315-327.

Bagwan, N.B. (2010). Evaluation of Trichoderma compatibility with fungicides,

pesticides, organic cakes and botanicals for integrated management of soil

borne diseases of soybean (Glycine max (L.) Merrill). Int. J. Plant Prot., 3:

206-209.

Bajwa,R. , Anjum, T., Shafique, S. and Shafique, S. (2006). Evaluation of Antifungal

Activity Of Cicer arietinum L. Pak. J. Bot., 38 (1): 175-184.

Baker, K.F. and Cook, R.J.(1974). Biological control of plant pathogens. W.H.

Freeman: San Francisci.Pp.433.

Banik, Susanta. and Sharma, Pratibha. (2011). Evaluation of aqueous extracts against

Cauliflower Stalk Rot pathogen, Sclerotinia sclerotiorum. J. Mycopathol, Res,

49(1): 21-29.

Barthakur, B.K. and Dutta, P.K(1992). Prospects of biocontrol of tea diseases in N.E.

India. Proc. 31st Tocklai Conf. TRA, 163-168,.

Batish, D.R., Lavanya, K., Singh, H.P. and Kohli, R.K. (2007). Root mediated

allelopathic interference of Nettle-leaved Goosefoot (Chenopodium murale) on

wheat (Triticum aestivum). J Agron Crop Sci 193: 37-44.

Behrendt, U., Stauber, T. and Muller, T. (2004). Microbial communities in the

phyllosphere of grasses on fenland at different intensities of management.

Grass and Forage Science 59, 169-179.

Bell, D.K., Wells, H.D. and Markham, C.R. (1982). In vitro antagonism of

Trichoderma species against six fungal plant pathogens. Phytopath. 72: 379-

382.

Bhanumathi, A. and Ravishankar Rai, V. (2007). Leaf blight of Syzygium cumini and

its management in vitro. Australasian Plant Disease Notes, 2: 117-121.

Bhat, H.R. and Jadeja, K.B. (2010). Mango stem and rot management with

Carbendazim. Indian Phytopath. 63(1): 103-105.

Bhati, H.S. and Gaur,R.D. (1970). Studies on aerobiology- atmospheric fungal spores.

New Phytol. 82: 519-927.

Bhowmic, P.C. and Doll, J.D. (1982). Corn and Soybean response to allelopathic

effects of weed and residues. Agronomy Journal 74, 601-606.

Bilgrami, S.S. and Jamaluddin, Rizwi M.A. (1979). “Fungi of India, Part 1. List and

references” (Today and Tomorrow’s Printers and Publishers New Delhi).

Bordoloi,D.N. and Baruah, H.K (1967-68). Studies on distribution of certain fungi in

tea plantation soil and air. J. Univ. G.U. vol. XVII-XIX (1) Sci. 155-170.

Bowers, J.H. and J.C. Locke. (2000). Effect of botanical extracts on the population

density of Fusarium oxysporum in soil and control of Fusarium wilt in the

green house. Plant disease, 84 (3): 300-305.

Brophy, T.F., and Laing, M.D. (1992). Screening of fungicides for the control of

downy mildew on container-grown cabbage seedlings. Crop Protection.

11(2):160–164

Butler, E.J. and Bisby, G.R. (1937). The fungi of India. Sci. Monogram Council

Agricultural Research India II and XVII. pp.237.

Casado, C. M. (1995). Allelopathic effect of Lantana camara (Verbenaceae) on

morning glory (Ipomoea tricolor) Rhodora, 97:891, 264 – 274.

Chakrabarty, R., Acharya,G. C. and Sarma, T. C. (2013). Effect of fungicides,

Trichoderma and plant extracts on mycelial growth of Thielaviopsis paradoxa,

under in vitro condition. The Bioscan 8(1): 55-58.

Chakraborty, U., Chakraborty, B.N. and Basnet Merab. (2006). Plant growth

Promotion and induction of resistance in Camellia sinensis by Bacillus

megaterium. J. Basic Micribiol. 46 (3), 186-195.

Chakraborty, U., Dutta, S.K. and Chakraborty, B.N. (1991). Antifungal activity of

some plant extracts against fungal Pathogens of Tea (Camellia sinensis).

Pharmaceutical Biology. 43(1). 87-91.

Chandra Mouli, B. and Ravikumar, P. (1988). Fungi occurring on tea and Grevillia

robusta in the Plantation of South India. Ind. Phytopathol, 41 (3): 73-88.

Chandramouli, M.R. and Baby, U.I. (2000). Control of thorny stem blight disease of

tea with fungicides and biocontrol agents. PLACROSYM XIV (Abstr): 90-91.

Chaparro, A.P., L.H. Carvajal, and S. Orduz, (2011). Fungicide tolerance of

Trichoderma asperelloides and T. Harzianum strains. Agric. Sci., 2: 301-307.

Chiejina, N. V. (2006). Potentials of the leaf extracts of Azadirachta indica (A.) Juss

and Ocimum gratissium (L.) for the control of some potato (Solanum

tuberosum L.) fungal diseases. Nigerian Journal of Botany, 19 (1): 68 –73.

Chet, I. (1987). Trichoderma- application, mode of action and potential as a

biocontrol agent of soilborne plant pathogenic fungi. In: Innovative approaches

to plant disease control. I. Chet (ed.), John Wiley and Sons. Pp. 137-160, New

York.

Chon, Sang-Uk., Choi, Seong-Kyu., Jung, S., Jang, Hong-Gi., Pyo, Byoung-Sik and

Kim, Sun-Min (2002). Effects of alfalfa leaf extracts and phenolic

allelochemicals on early seedling growth and root morphology of alfalfa and

barnyard grass. Crop Protection. 21(10): 1077-1082.

Choompookaew, G, 1990. Stem blight of asparagus: Etiology, infection and chemical

control. Bangkok (Thailand) 90: pp. 68.

Cown, M.M. (1999). Plant products as antimicrobial agents. Clinical Microbiol Rev

12:564-582

Curl, E.A., E.A. Wiggind and S.C. Anders. (1976). Interaction of Rhizoctonia solani

and Trichoderma with PCNB and herbicides affecting cotton seedling diseases.

Proc. Ann. Phytopathol. Soc., 3: 221-221.

Daami-Ramadi, M.K., Hibar, H., Jabnoun-Khiareddine., F.Ayed and M. El Mahjoub.

(2006). Effect of two Trichoderma species on severity of potato tuber dry rot

caused by Tunisian Fusarium Complex. Int. J. Agric. Res., 1:432-441.

Dar, G.H., M.A. Beig, F.A. Ahanger, N.A. Ganai and M.A. Ahangar. (2011).

Management of root rot caused by Rhizoctonia solani and Fusarium oxysporum

in blue pine (Pinus wallichiana) through use of fungal antagonists. Asian J.

Plant Pathol., 5: 62-74.

Das,K., Tiwari, R.K.S. and Shrivastava, D. K. (2010). Techniques for evaluation of

medicinal plant products as antimicrobial agent: Current methods and future

trends. Journal of Medicinal Plants Research. 4 (2): 104-111.

Davidse, L. C., Looijen, D., Turkensteen, I. J. and Van DerWal, D. (1981).

Occurrence of metalaxyl resistant strains of Phytophthora infestans in Dutch

potato fields. Neth J. Pl. Pathol. 87: 65-68.

Deb, P.R. and Dutta, B.K. (1998). Trichoderma as a biocontrolling agent against

Sclerotium rolfsii. Microbios Letters. 37:107-113.

Deepak ,P. and Saran, L. and La, G. (2008). Control of Wilt and Blight Diseases of

Cumin through Antagonistic Fungi under in Vitro and Field Conditions Not.

Bot. Hort. Agrobot. Cluj 36 (2):91-96

Deepthi, K.C. (2013). Effect of potential biocontrol agents against Sclerotium rolfsii

causing stem rot of groundnut. Int. J. Life Sc. Bt. and Pharm. Res. 2 (2):58-65.

Dekkers, J. (1976). Acquired resistance to fungicides. Ann. Rev. Phytopath., 14:405-

428.

Delfino Abeya, J.A. (2002): Control of invasive Chromolaena odorata (L) R.M. King

and H. Robinson: an evaluation of its efficacy in Futululu State forest, South

Africa. – PhD thesis, University of Enschede, the Netherlands.

Demirci, F., Bayraktar, H., Babaliogullu, I., Dolar, F.S. and Maden, S. (2003). In vitro

and in vivo effects of some fungicides against the chickpea blight pathogen,

Ascochyta rabiei. Journal of Phytopathology 151: 519–524.

Devanathan, M. and Ramanuyam , K. (1985). Evaluation of fungicides for the

management of early blight of tomato caused by Alternaria solani. Madras

Agric. J., 82: 228-229.

Devi, S. (1984). Air spora studies over tea fields with special reference to red rust and

black rot of tea plant (Camellia sinensis (L.) O. Kuntze). Ph.D. Thesis, A.A.U.,

Jorhat.

Dhwan, S. R. and Gupta, S. K. (1996). Allelopathic potential of various leachate

combinations towards SG and ESG of Parthenium hysterophorus Linn. World

– Weeds 3:1, 85 – 88

Dhingra, O.D. and Sinclair, J.B.(1985). Basic Plant Pathology Methods

Diaz-Zorita Martín and Fernandez-Canigia Maria Virginia (2009). Field performance

of a liquid formulation of Azospirillum brasilense on dryland wheat

productivity. European Journal of Soil Biology. 45 (1): 3–11

Digrak, M., M.H. Alma, A. Ilcim and S. Sen. (1999). Antibacterial and antifungal

effects of various commercial plant extracts. Pharma. Biol., 37(3): 216-220.

Dixit, S.N.and Tripathi, S.G. (1975). Fungistatic properties of some seedling extracts.

Curr. Sci. 64:279-280.

Dickinson, C.H. (1971). Cultural studies of leaf saprophytes. In: Ecology of leaf

surface microorganisms. Ed. T.F. Preece and C.H.Dickinson: Academic Press,

London 129-137.

Dluzniewska, J. (2003). Reaction of fungi of Trichoderma genus to selected abiotic

factors. Electronic Journal of Polish Agricultural Universities, 6:23-29.

Dubos, B., Jailloux, F. and Bulit, J. (1982). Protection du vignoble contre la pourriture

grise: les propriétes antagonistes du Trichoderma a l’égard du Botrytis cinerea.

Les Colloques de L’INRA, Bordeaux, v. 11, 205-219,

Duke, S.O. (1990). Natural Pesticides from Plants. In: Advances in New Crops,

Janick, J. and J.E. Simon (Eds.). Timber Press, Portland, OR, pp: 511-517.

Dutta, B.K. (1981). Studies on some fungi isolated from the rhizosphere of tomato

plants and the consequent prospect for the control of Verticillium wilt. Plant

and Soil. 63:209-216.

Dutta, B.K. (1994). Potential of systemic fungicides in the management of tea

diseases. Proceedings of the 32nd

Tocklai Conference. Tea Research

Association. Tocklai Experimental Station.

Dutta, B.K. and S, Debnath. (1990). Disease forecasting as an aid to control blister

blight disease of tea caused by Exobasidium vexans in Darjeeling District. In

(B. Banerjee Ed.) Proc. Int. Conf. on Tea R & D. 87-90.

Dutta, B.K., S, Debnath., S.K.Pradhan and R.M. Gurung. (1992). Role of systemic

fungicides in the management of blister blight in Darjeeling. Proc. Of 31st

Tock. Conf. 1992, 153-162.

Dutta, B.K., Dutta,S. and Nath,P.K. (2004). Some observations on the mycoflora of

tea environment with special reference to their mycotoxin producing potential

in Black tea. Int. J. Tea Sci. 3(3&4): 129- 138.

Dutta, B.K., Dutta, S. and Nath, P.K. (2008). Mycotoxin production potential of

mycoflora in tea. Economic Crisis in tea Industry- Strategies for sustainable

management. Global Advances in tea Science. Book no. 30. Stadium Press

LLC, USA, 2008, pp 221-232.

Dutta, B.K. and Issac, I. (1979). Seasonal variation of Fungistasis in some soils.

Trans. Br. Mycol. Soc. 73(1):157-159.

Dutta, S., Dutta,B.K. and Nath, P.K. (2010). Comparative Study of the Air,

Phyllosphere and Soil Mycoflora of the Tea Plantation Area of Cachar District,

Assam Assam University Journal of Science & Technology: Biological and

Environmental Sciences.5 (I): 89-94.

Dutta, B.K., Ramarao, P. and Issac, I. (1982). Evidence on the biological origin of soil

fungistasis. Journal of Plant Diseases and Protection. 88(7), 427-434.

Dutta, U. and Kalha, C.S. (2011). In vitro evaluation of fungicides, botanicals against

Rhizoctonia solani causing sheath blight of rice. J. Mycopathol, Res. 49 (2):

333-336.

Ejechi, B.O and D.E, Akpomedaye (1999). Wood Protection Potential of Acalypha

hispida (Euphorbiaceae) leaf phenolic extract against degradation by two

Basidiomycetes. P 23 In: Book of Abstracts, 27th Annual Conference of

Nigerian Society of Plant Protection At NIFOR, Benin-city, 26-30 Sept. 1999.

35pp.

Ejechi. B.O. and M.E. Ilondu. (1999). Control of yam tuber (Dioscorea rotundata) rot

agent Scierotium rolfsii with camwood (Baphia nitida L.) sawdust extract.

African Journal of Root and Tuber Crop 3(2):13-15.

Ekanayaka, A. Kariyawasam,W.S. and Kanthasamy,P.(1987). A study on the

microorganisms and their activities associated with storage. S.L.J.Tea Sci. 56:

12-21.

Eksteen, D., J.C. Pretorius, T.D. Nieuwoudt and P.C. Zietsman. (2001). Mycelial

growth inhibition of plant pathogenic fungi by extracts of South African plant

species. Annals of Appl. Biol., 139(2): 243-249.

Ellis, D., Davis, S., Alexiou, H., Handke, R. and Bartley, R. (2007). Descriptions of

Medical Fungi (2nd ed). Mycology Unit Womens Hospital North Adelaide ,

Australia. 198pp

Enikuomehin, O.A. (2005). Cercospora leaf spot disease management in sesame

(Sesamum indicum L.) with plant extracts. Journal of Tropical Agriculture 43

(1-2): 19-23

Evueh, G. A. and Ogbebor, N. O. (2008). Use of phylloplane fungi as biocontrol

agent against Colletotrichum leaf disease of rubber (Hevea brasiliensis Muell.

Arg.). African Journal of Biotechnology 7 (15): 2569-2572.

Eyini, M., Maheswari, A U., Chandra, T.and Jayakumar M. (1996). Allelopathic

effects of leguminous plants leaf extracts on some weeds and corn. Allelopathy

Journal 3:1, 85 – 88.

Faravani, M., Baki, H. B., Khalij, A. (2008). Assessment Allelopathic Potential of

Melastoma malabathricum L. On Radish raphanus sativus L. and Barnyard

Grass (Echinochloacrus galli) Notulae Botanicae Horti Agrobotanici Cluj-

Napoca 36(2)

Ferguson, J.J. and B. Rathinasabapathi. (2003). Allelopathy: How plants suppress

other plants. Hort. Sci. Deptt., Co-op Ext. Ser., Instt. of Food and Agricultural

Sci., University of Florida, Gainesville, 3(2): 6-11.

Ferreira, E.M. and Alfenas, A.C. (2008). Effectiveness of systemic fungicides in the

control of Quambalaria eucalypti and their effects on production of eucalypt

mini-cuttings for rooting. Crop Protection. 7(2): 161-170.

Fravel, D.R., Deahl, K.L. and Stommel, J.R. (2005). Compatibility of the biological

fungus Fusarium oxysporum strain CS-20 with selected fungicides. Biocontrol,

34: 165-169.

Gadd. (1949). Monograph on tea production in Ceylon. No.2. the common Diseases

of Tea. The Tea Research Institute of Ceylon, pp.94.

Ghisalberti, E.L., Narbey, M.J., Dewan, M.M. and Sivasin, K. (1990). Varability

among strains of Trichoderma harzianum in their ability to reduce take-all and

to produce pyrones. Plant Soil 121:287-291

Goodchild, N.A. (1952). Stem diseases. Ann.Report Tea Research Institute of East

Africa, pp.24.

Gopinath, K.,Radhakrishnan, N.V. and Jayaraj. J. (2006). Effect of propiconazole and

difenoconazole on the control of anthracnose of chilli fruits caused by

Colletotrichum capsici. Crop Protection. 25(9):1024-1031.

Grover, R.K. (1986). Chemicals for the control of plant diseases in India- an

overview. Indian Phytopath., 39(1): 1-13.

Gulluce, M., M, Sokmen., D, Daferera and G, Agar. (2003). In vitro antibacterial,

antifungal and antioxidant activities of the essential oil and methanol extracts

of herbal parts and callus cultures of Satureja hortensis L. J. of Agri. & Food

Chem., 51(14): 3958-3965.

Gupta, V. K. and Sharma, K. (2004). Integration of chemicals and biocontrol agents

for managing white rot of apple. Acta Hort. 635:141-149.

Gurjar, M.S., Ali, S., Akhtar, M. and Singh, K.S. (2012). Efficacy of plant extracts in

plant disease management. Agricultural Sci. 3(3): 425-433.

Hadizadeh, I., Peivastegan, B., Kolahi, M. (2009). Antifungal activity of nettle

(Urtica dioica L.), colocynth (Citrullus colocynthis L. schrad), oleander

(Nerium oleander L.) and konar (Ziziphus spina-christi L.) extracts on plants

pathogenic fungi. Pak. J. Biol. Sci., 12: 58-63.

Hamaya, E. (1981). Diseases of Tea plant in Japan and their control. Reviews of Plant

Protection Research, 14:96-111.

Hamayun, M., F. Hussain, S. Afzal and N. Ahmad. (2005). Allelopathic effects of

Cyperus rotunds and Echinochloa crus-galli on seed grermination and plumule

and radical growth in maize (Zea mays L.). Pak. J. Weed Sci. Res. 11: 81-84.

Harlapur, S.I., Kulkarni, M.S., Wali, M.C. and Kulkarni, S. (2007). Evaluation of

Plant Extracts, Bio-agents and Fungicides Against Exserohilum turcicum

(Pass.) Leonard and Suggs. Causing Turcicum Leaf Blight of Maize. Karnataka

Journal of Agricultural Sciences, 20(3):43-49.

Harman, G.E. (2006). Over view of mechanisms and uses of Trichoderma spp.

Phytopathology. 96:190-194.

Harman, G.E., Howell, C.R., Viterbo, A., Chet, I. and Lorito, M.(2004). Trichoderma

sp- Oppurtunistic, avirulent plant symbionts. Nat. Rev. Microbiol. 2:43-56.

Harsh, N.S.K., Nath, V., Tiwari, C.K. and Rehill, P.S. (1987). Studies on a new foliar

disease of Diospyros melanoxylon Roxb. Van Vigyan 25, 16–20.

Hesse, B. and Hiepko, G. (1974). Bavistin- the versatile systemic fungicide, Pestic 8:

37-39.

Hol, W.H.G. and J.A. Van-veen. (2002). Pyrrolizidine alkaloids from Senecio

jacobaea affect fungal growth. J. of Chem. Ecol., 28(9): 1763-1772.

Holm, L.G., Plucknett, D.L., Pancho J.V. and Herberger, J.P. (1977): The world’s

worst weeds distribution and Biology. – University Press of Hawaii, Honolulu.

Homdork, S., Fehrmann, H. and Beck, R. (2000). Effects of Field Application of

Tebuconazole on Yield, Yield Components and the Mycotoxin Content of

Fusarium-infected Wheat Grain. Journal of Phytopathology. 148(1):1-6.

Howell, C.R. (1982). Effect of Gliocladium virens on Phythium ultimum, Rhizoctonia

solani and damping off of seedlings. Phytopathology. 74:106.

Hundekar, A.R., Jahagirdar, S., Matiwade, P.S. and Bhat, B.N. (2005). Management

of frog eye leaf spot of bidi tobacco through chemicals. Pp. 100. Paper

presented in the National Conference on Tobacco held at Angrau, Hyderabad

from October, 3-7, 2005.

Kadioglu, I., Yanar, Y. and Asav, U. (2005). Allelopathic effects of weeds extracts

against seed germination of some plants. J Environ Biol.26 (2):169-73.

Kamhawy M.A.M. (2006).Host Range and Control of Phyllosticta sp. the Cause of

Banana Leaf Spot and Blight Egypt. J. Phytopathol., Vol. 34(2):1-15

Kay, S.J. and Stewart, A. (1994). The effect of fungicides on fungal antagonists of

onion white rot and selection of dicarboximide resistant biotypes. Plant Path.,

43:863-871.

Ilondu, E.M. (2011). Evaluation of some aqueous plant extracts used in the control of

pawpaw fruit (Carica papaya L.) rot fungi. Journal of Applied Biosciences, 37:

2419 – 2424.

Ismail, I.M.K., Salama, A.M., Ali, M.I.A. and Ouf, S.A. (1987). Effect of some

phenolic compounds on spore germination and germ-tube length of Aspergillus

fumigatus and Fusarium oxysporium. Cryptog Mycol., 8: 51-57.

Islam, M.R. (2001). Characterization of Pestalotia spp. based on morphological

characteristics, host range, isozyme analysis, response to fungicides and culture

filtrate toxicity in vitro. M.S.Thesis, Bangabandhu Sheikh Mujibur Rahman

Agriculture University, Bangladesh.

Islam, M.R, Hossazin, M.K., Bahar, M.H. and Ali, M.R. (2004). Identification of the

causal agent of leaf spot of Betelnut and in vitro evaluation of fungicides and

plant extracts against it. Pakistan Journal of Biological Sciences 7, 1758–1761.

Islam, M.S., Ali, M. and Ahmad, I. (2013). In vitro study on the biocontrol activity of

Trichoderma against Phomopsis theae petch, infecting collar rot of tea in

Bangladesh. International journal of Tea Science. 9(1):278-31.

Jadhave, P.S, Malik, N.G. and Chavan, P.D. (1997). Allelopathic effects of Ipomoea

carnea subsp, fistulosa on growth of wheat, rice, sorghum and kidney bean.

Allelopathy J 4: 345-348

Jahagirdar, S. and Hundekar, A.R. (2010). Management strategies against frog eye

leaf spot pathogen (Cercospora nicotianae) in India. Indian Phytopath.63(1):

63-65.

Jadon, K.S. and Shah, R. (2012). Antifungal activity of different plant extracts against

Drechslera bicolor causing leaf blight of bell pepper. Archives Of

Phytopathology And Plant Protection. 45(12): 1417-1428

Jaspers, M.V. (2001). Effect of fungicides, in vitro, on germination and growth of

Phaeomoniella chlamydospora. Phytopathologia Mediterranea 40: S453–

S458.

Jegathambigai, V., R.S.W. Wijeratnam and R.L.C. Wijesundera. (2009). Control of

Fusarium oxysporum wilts disease of Crossandra infundibuliformis var. Danica

by Trichoderma viride and Trichoderma harzianum. Asian J. Plant Pathol., 3:

50-60.

Jegathambigai, V., R.S.W. Wijeratnam and R.L.C. Wijesundera, (2010). Effect of

Trichoderma sp. on Sclerotium rolfsii, the causative agent of collar rot on

Zamioculcas zamiifolia and an on farm method to mass produce Trichoderma

species. Plant Pathol. J., 9: 47-55.

Joseph, B., Dar, M. A. and Kumar, V. (2008). Bioefficacy of Plant Extracts to Control

Fusarium solani F. Sp. Melongenae Incitant of Brinjal Wilt. Global Journal of

Biotechnology & Biochemistry 3 (2): 56-59.

Kadioglue, I., Yanar, Y. and Asav, U. (2005). Allelopathic effects of weed leachates

against seed germination of some plants. J Environ Biol 26: 169-173.

Kalim,S., Luthra, K.P. and Gandhi, S.K.(2000). Influence of Bavistin seed treatment

on morphophysiological and biochemical parameters of cowpea roots

susceptible to Rhizoctonia species. J. Mycol. Pl. Pathol. 30: 375-379.

Kamhawy, M.A.M. (2006). Host Range and Control of Phyllosticta sp. the Cause of

Banana Leaf Spot and Blight. Egypt. J. Phytopathol., 34(2):1-15.

Kamla, Uniyal., Ajab, Singh. and Rajiv, Pandey. (2001). Leaf blight of poplar and its

control. Indian Forester, 127: 1394-1396

Katia Cristina Kupper., Élida Barbosa Corrêa., Cristiane Moretto., Wagner Bettiol.,

Antonio De Goes. (2011). Control of Guignardia citricarpa by Bacillus subtilis

and Trichoderma spp.Rev. Bras. Frutic., Jaboticabal - SP, 33(4):1111-1118

Kavita, S. (2011). Mould Biodiversity of certain Leaf Surface, Air and Soil Borne

Mycoflora. International Journal of Soil Science. 6(1): 31-33.

Kay, S.J. and Stewart, A. (1994). The effect of fungicides on fungal antagonists of

onion white rot and selection of dicarboximide-resistant biotypes. Plant Path.,

43:863-871.

Kerr, A.F.G. (1932):.Report on a tour in the Provinces of Surat, Pang Nga, Krabi,

Tiang and Patalung (16 Feb-30 March 1930). – The Record, Bangkok 11: 211-

225.

Khalequzzaman, K., Hossain, M.I. and Hosssain, M.M. (1998). Effect of fungicides

and potash in controlling grey leaf spot of coconut. Bangladesh Journal of

Training and Development 11: 151–156.

Khalifa, H.M.S. and Sameer, W. M. (2012). Effect of Clethodim Herbicide on

Acquired Tolerance of Alternaria alternata and Fusarium solani to

Tetraconazole Fungicide. International Journal of Microbiological Research 3

(2): 149-157.

Khan, M.O. and Shahzad, S. (2007). Screening of Trichoderma species for tolerance

to fungicides. Pak. J. Bot., 39:945-951.

Khare, M.N. and Shukla, B.N.(1998). Utility of plants in crop disease control.

Vasundhara. 3:1-15.

Kim, K.U. and Shin, D.H. (1998). Rice allelopathy research in Korea. In: Allelopathy

in rice, (Ed, M. Olofsdotter). International Rice Research Institute, Los Banos,

Philippines, pp. 39-43.

Kiran, K., S. Linguraju and S. Adiver. (2006). Effect agents against Drechslera

sorokiniana In: Asian of plant extract on Sclerotium rolfsii, the incitant Cong.

Mycol. Pl. Pathol., Indian Soc. Mycol. Pl. of stem rot of ground nut. J. Mycol.

Pl. Pathol., Pathol. University of Mysore (Abst) Oct.1-4, pp: 241. 36: 77-79.

Kishore, M., Dubbey, N.K., Tripathi, R.D. and Singh, S.K. (1982). Fungitoxic activity

of leaves of some higher plants. Natl. Acad. Sci. Lett 5: 9-10.

Kittleson, A.R. (1952). A new class of organic fungicides. Science, 115: 84-86.

Kobayashi, K. (2004). Factors affecting phytotoxic activity of allelochemicals in soil.

Weed Biology and management, 4: 1-7.

Kong, C.H., H.B. Li., F. Hu., X.H. Xu and P, Wang. (2006). Allelochemicals released

by rice roots and residues in soil, 288(1-2): 47-56.

Korsten, L., Lonsdale, J. H., De Villiers, E. and De Jager, E. S. (1992). Preharvest

biological control of mango diseases. S.A. Mango Growers’ Assoc. Yearbook.

12: 72–74.

Kucuk, C. and Kivan, M. (2004). In vitro antifungal activity of strains of Trichoderma

harzianum. Turk. J. Biol., 28:111-115.

Kumar,V., C.D. Brainerd and R.R. Blender. (2009). Suppression of Powell Amaranth

(Amaranthus powellii) by Buckwheat Residues: Role of Allelopathy. Weed sci.

57(1): 66-73.

Kumaran, R.S., Gomathi, V. and Kannabiran, B. (2003). Fungitoxic effects of root

extracts of certain plant species on Colletotrichum capsici causing anthracnose

in Capsicum annuum. Indian Phytopath., 56: 114-116.

Kundu, B.S. and A.C. Gaur. (1980a). Effect of nitrogen fixing and phosphate

solubilizing microorganisms as single and composite inoculants on cotton. Ind.

J. Microbiol., 20:225-229.

Kundu, B.S. and A.C. Gaur. (1980b). Establishment of nitrogen fixing and phosphate

solubilizing bacteria in rhizosphere and their effect on yield and nutrient uptake

of wheat crop. Plants soil, 57:223-230

Kredics, L., Anal, Z., Manczinger, L., Szekeres, A., Kevei, F. and Nagy, E. (2003).

Influence of environmental parameters on Trichoderma strains with biocontrol

potential. Food Technol Biotechnol 41:37-47.

Kundalkar, S.K., Joshi, M.S. and Pawar, D.R. (1991). Control of leaf blight of

coconut caused by Pestalotia palmarum CKE. Indian Coconut Journal Cochin

22, 18–19.

Lam, C. H. and Lim, T. K. (1993). Efficacy of hexaconazole for the control of white

rust on chrysanthemum and powdery mildew on roses. International journal of

Pest Management. 39(2): 156-160.

Lamba, P., Sharma, S., Munshi, G.D. and Munshi, S.K. (2008). Biochemical changes

in sunflower plants due to seed treatment/ spray application with biocontrol

agents. Phytoparasitica 36:388-399.

Lanaud, C., Jolivet, M.P., Deat, M. (1991): Preliminary results on the enzymatic

diversity in C. odorata (L.) R.M. King and H. Robinson (Asteraceae). – In:

Muniappan, R., Ferrar, P. (eds.) Proceedings of 2nd International Workshop on

Biological Control of C. odorata. Biotropical Special Publication 44: 71-77.

Bogor, Indonesia.

Lapis, D.B. and Dumancus, E.E. (1978). Fungicidal activity of crude plant extracts on

Helminthosporium oryzae. Philippine Phytopathol. 14:23-27.

Latorre, B.A., E. Agosin., R.S. Martin and G.S. Vasquez (1997). Effectiveness of

conidia of Trichoderma harzianum produced by liquid fermentation against

Botrytis bunch rot of table grape in Chile. Crop Prot., 16: 209-214.

Lichtenberg, E. and Zilberman, D. (1987). Regulating environmentaland human

health risk from agricultural residuals. Appl. Agric. Res. 2: 56–64.

Lima, Giuseppe., De Curtis, Filippo. and De Cicco, Vincenzo. (2008). Interaction of

microbial biocontrol agents and fungicides in the control of postharvest

diseases Volume 4(1):1-7

Lorito, M. (1998). Chitinolytic enzymes and genes. Trichoderma and Gliocladium,

vol 2. London. Taylor and Francis. Pp.73-99.

Lorito, M., Peterbauer, C.K., Hayes, C.K.and Herman, G.E. (1994). Synergistic

interaction between fungal cell-wall degrading enzymes and different

antifungal compounds on spore germination. Microbiol .140:623-629

Lukens, R.J. and H.D. Sisler (1958). Chemical reactions involved in the fungitoxicity

of Captan. Phytopath., 49: 228.

Lydon, J., Teasdale, J. R. and Chen, P. K. (1997). Allelopathic activity of annual

wormwood (Artemisia annual and the role of artemisinin. Weed Science 45:6

807 – 811.

MacFadyen Cruttwell, R.E. (1996). Natural Report from Australia and the Pacific. –

In: Distribution, Ecology and Management of Chromalaena odorata. – In:

Prasad, U.K. et al. (eds.) Proceedings of 3rd International Chromolaena

Workshop, Abidjan Côte D’Ivoire November (1993). Agriculture Experimental

Station Publication, University of Guam 202: 39-44. Mangilao, USA.

MacFadyen Cruttwell, R.E. (1989). Siam Weed: a new threat to Australian’s north. –

Plant Protection Quaternary 4(1): 3-7.

MacFadyen Cruttwell, R.E. (1991). The Ecology of Chromolaena odorata in the

Neotropics. – In: Muniappan, R., Ferrar, P. (eds.) Proceedings of 2nd

International Workshop on Biological Control of C. odorata. Biotroprocs

Special Publication 44: 1-10. Bogor, Indonesia.

MacFadyen Cruttwell, R.E. and Skarratt, B. (1996). Potential distribution of

Chromolaena odorata (siam weed) in Australia, Africa and Oceania. –

Ecosystems & Environment 59: 89-96.

Madhumita, Dey. (2001). Studies on the disease of tea {Camellia sinensis (L.) O.

Kunte} under the agroclimatic conditions of Barak Valley of Assam with

special reference to their control. Ph. D thesis. Assam University.

Magama, S., Pretorius, J.C. and Zietsman, P.C. (2003). Antimicrobial properties of

extracts from Euclea crispa subsp crispa (Ebenaceae) towards human

pathogens. South African J. of Bot., 69(2): 193-198.

Magurran, A.E. (2004). Measuring Biological Diversity. Blackwell Publishing SC.

Ltd.

Mahadevan A (1982). Biochemical aspects of plant disease resistance. Part I

:Performed inhibitory substances. New Delhi: Today and TomorrowÕs Printers

and Pub. pp 425-431

Mahadevan, A. and Sridhar, R. (1986). Methods in Physiological Plant Pathology.

Sivakami Publications.

Mahmoud, A.L.E. (1999). Inhibition of growth and aflatoxin biosynthesis of

Aspergillus flavus by extracts of some Egyptian plants. Letters in Appl.

Microbiol., 29(5): 334-336.

Mahmood, K., Malik, K.A., Sheikh, K.H., Hussain ,A. and Lodhi, M.A.K. (1999).

Allelopathic potential of weed species invading kallar grass (Leptochloa fusca

(L.) Kunth) in saline agricultural land. Pak J Bot 31: 137-149.

Mahmoud, Y.A.G., Ebrahim, M.K.H. and Aly, M.M. (2004). Influence of Plant

Extracts and Microbioagents on Physiological Traits of Faba Bean Infected

with Botrytis fabae. Journal of Plant Biology 47(3): 194 -202

Mahmoud Yehia A. G.,Ebrahim Mohsen K. H. and ALY, Magda M.(2004). Influence

of Some Plant Extracts and Microbioagents on Some Physiological Traits of

Faba Bean Infected with Botrytis fabae. Turk J Bot ., 28:519-528

Maloy, O.C. (1993). Plant disease control: Principles and practices. Wiley, USA.

Manibushanrao, K., Manian, S. and Zuber, M. (1979). Sheath blight disease of rice in

South East Asia. In: Sheath blight of rice (Ed. K. Manibushanrao).Trinagar,

Delhi. pp.1-101.

Mann, H.H. and Hutchinson, C.H. (1904). ‘Red Rust’. Second edition, ITA, Bulletin 4

pp.26.

Martinez-Lozano, S.L., S. Garcia and N. Heredia. (2000). Antifungal activity of

extract of sargassum filipendula. Phyton-International J. of Exp. Bot., 66: 179-

182.

Mason, J.R. and Mathew, D.N. (1996). Evaluation of neem as a bird repellent

chemical. Int. J. Pest Management. 42: 47-49.

Mclean, K.L., J. Hunt and A. Stewart (2001). Compatibility of the biocontrol agent

Trichoderma harzianum C52 with selected fungicides. New Zeal. Plant

Protect., 54: 84-88.

Mehta, P.R. (1971). Role of fungicide in modernizing agriculture in India. Eight

Mundkar Memorial Lecture at the annual meeting of the Indian Phytopath. Soc.

at Bangalore.

Melo, I.S. (1998). Agentes microbianos de controle de fungos fitopatogênicos. In:

MELO, I.S.; AZEVEDO, J.L. Controle biológico. Jaguariúna: EMBRAPA, p.

17-66.

Mesterházy,A., Bartók,T. and Lamper, C. (2003). Influence of Wheat Cultivar,

Species of Fusarium, and Isolate Aggressiveness on the Efficacy of Fungicides

for Control of Fusarium Head Blight. Plant Disease. 87(9):1107-1115.

Michael, P.W. (1989). Review paper on weeds of concern to northern Australia. –

Unpublished Report to AQIS. Canberra, June 1989.

Millardet, A. (1885). Sur ihistoire du traitnent dev midiore Par le sulfate de cuiver. J.

Agr. Prot., Paris, 49: 801-805 (English translation by F.J. Schnelder ban,

Phytopath. Classics, 3: 18-25.

Mir, G.H., L.S. Devi., S. Ahmad., V.M. Kumar and P. Williams (2011). Antagonistic

potential of native isolates of Trichoderma viride on corm rot pathogen

complex of saffron (Crocus sativus) in Kashmir. Plant Pathol. J., 10: 73-78.

Mishra, D.S. and Sinha, A.P. (1999). Laboratory evaluation of fungicides against

Rhizoctonia solani Kuhn, the cause of Sheath blight of rice. Agricultural

Science Digest, Karnal. 19: 211-213.

Mishra, J., Swain, S.D. and Singh, V.P. (2004) Studies on germination and

allelopathic potential of horse purslane (Trianthema partulacastrum L.). Indian

J Plant Physiol 9: 181-184.

Mizumo, M.(1988). Triflumizole (Trifmine®: a new broad spectrum fungicide. Japan

Pesticide Information 52:27-30

Monte, E. (2001). Understanding Trichoderma: Between biotechnology and microbial

ecology. Int. Microbiol., 4: 1-4.

Morang, P., Dutta, B.K. and Dileep Kumar, B.S. (2012). Efficacy of Systemic

Fungicides Against Brown Root Rot (Fomes lamoensis) Disease of Tea

(Camellia sinensis (L) O. Kuntze) in vitro and in Nursery Condition World

Journal of Agricultural Sciences 8 (3): 316-321.

Morang, P., Dutta, B.K., Ranjita, I. and Dileep Kumar, B.S. (2013). Antagonistic

Potential of Some Isolated Soil Fungi Against Brown Root Rot Disease of Tea

in Barak Valley of Assam. Journal of Pure And Applied Microbiology. 7(1).

711-716.

Muhsin, T.M., Al-Zubaidy S.R. and Ali, E.T. (2001). Effect of garlic bulb extract on

the growth and enzymatic activities of rhizosphere and rhizoplane fungi.

Mycopathologia, 152(3): 143-146.

Nagaraju, A.P. and G. Nanjunadappa (1996). Effect of sources and levels of

phosphorous using P-sexualizing inoculants on cowpea. Crop Res., 12:387-

389.

Nakano, K. (1978). An ecological study of swidden agriculture at a village in

Northern Thailand. – South East Asian studies 16: 411-446.

Naar, Z. and Kecskes, M. (1998). Antagonism of Trichoderma atroviride and

Trichoderma viride strains against Sclerotinia minor as influenced by

mancozeb, benomyl and vinclozolin. Acta Phytopathologica et Entomologica

Hungarica, 33:123-130.

Nahunnaro, H and Tunwari, B.A. (2012). Field evaluation of some selected plant

extracts on the control of cercospora leaf spot (cls) disease (cercospora sesami

limm) and their effects on the seed yield of sesame (Sesamum indicum L.)

International Journal of Agriculture: Research and Review. 2 (S), 1045-1050.

Narwal, S.S. (2004). Allelopathy in crop production. Scientific Publishers, Jodhpur,

India. Pp. 326-332.

Nemoto, M., Pongskul, V., Hayashi, S. and Kamanoi, M. (1983). Dynamics of weed

communities in an experimental shifting cultivation site in Northeast Thailand.

– Weed Research Japan 28: 11-121.

Nene, Y.L. and P.N, Thapaliyal (1993). Fungicide in plant disease control. Third

edition Oxford and IBH Pub. Co. Pvt. Ltd., New Delhi. pp. 691.

Nicolls, J.R. (1969). Antifungal activity in Passiflora spp. Annal. Bot. 34: 229-237.

Nneka Chiejina,V . and N, Onaebi Chiemeka. (2013). In vitro fungicidal activity of

two plant extracts against five phytopathogenic fungi of cucumber (cucumis

sativus l.) fruit. International Journal of Applied and Natural Sciences

(IJANS), 2(3), 61-68

Obanor, F.O., Walter, M., Jones, E.E. and Jaspers M.V. (2005). In vitro effects of

fungicides on conidium germination of Spilocaea oleagina, the cause of olive

leaf spot. New Zealand Plant Protection 58:278-282

Obatulu, C.R. and Agboola, A.A. (1993). The potential of Siam weed (Chromolaena

odorata) as a source of organic matter for soils in the humid tropics. – In:

Mulongoy, K., Merckx, R. (eds.) Soil organic matter dynamics and

sustainability of Tropical Agriculture, Proceedings of an International

Symposium Leuven Belgium, 4-6 November. pp 89-99. John Wiley and Sons

Ltd. Chichester, England.

Odukwe, D.O. (1965). Eupatorium odoratum (Siam weed). – Bulletin Nigeria. Forest

Department.

Ogbebor, N.O. and Adekunle, A.T. (2005). Inhibition of conidial germination and

mycelial growth of Corynespora cassiicola (Berk and Curt) of rubber (Hevea

brasiliensis Muell. Arg.) using extracts of some plants. Afr. J. Biotechnol. 4(9):

996-1000.

Olaoye, S.O.A. (1986). Chromolaena odorata in the tropics and its control in Nigeria.

– In: Moody, K. (ed.) Weed Control in Tropical Crops Vol. 2. pp 279-293.

Weed Science Society of Philippines, Los Banos, Philippines.

O'Neill, T. M. Hanks, G. R. and Wilson, D. W. (2004). Control of smoulder (Botrytis

narcissicold) in narcissus with fungicides. Annals of applied Biology.145 (1):

129-137.

Omidbeygi, M., Barzegar ,M., Hamidi, Z. and Nafhdibadi, H. (2007). Antifungal

activity of thyme, summer savory and clove essential oils against Aspergillus

flavus in liquid medium and tomato paste. Food Control.18: 1518-1523.

Ohmoto, T. and Sung, Y. I. (1982). Antimycotic substances in the crude drugs II.

Shoyakugaku Zasshi 36:307-314.

Okunlola Adeyela I. and Ofuya Thomas I. (2013). Effect of mixed cropping and plant

extracts on the growth, yield and pest control of jute (Corchorus olitorius L.).

Folia Horticulturae, 25(1): 49–60

Onsando, J.M. (1986). In vitro efficacy of fungicides on Hypoxylonserpens. The

casual organism of wood rot of tea. Tea, 7: 4-8.

Onwugbuta – Enyi, J. (2001). Allelopathic Effects of Chromolaena Odorata L. (R. M.

King and Robinson – (Awolowo Plant’)) Toxin on Tomatoes (Lycopersicum

esculentum Mill). Journal of Applied Sciences & Environmental Management,

5(1) 69-73

Ortiz Molineuvo, P., Wright, E.R., Delfino, O.S.D.E., Grijalba, D.E. and Lopez, M.V.

(1996). Growth of antagonistic fungi in culture media with different dilutions

of fungicides. Revista Facul. Agron., 15(1):37-42.

Osando, J.M. and Waudo, S.W. (1994). Interaction between Trichoderma species and

Armillaria root rot fungus of tea in Kenya. Int. J. Pest Manage. 40: 69-74.

Osman, M.E.H., M.M. El-Sheekh, M.A. Metwally, A.E.A. Ismail and M.M. Ismail,

(2011). Antagonistic activity of some fungi and cyanobacteria species against

Rhizoctonia solani. Int. J. Plant Pathol., 2: 101-114.

Owens, R. G. and G. Blaak (1960). Site of action of Captan and Dichlone in the

pathway between acetate and citrate in fungus spores. contrib. Boyce

Thompson Inst., 20: 259-474.

Owolade, B.F and Y.O.K. Osikanlu (1999). Evaluation of some plant extracts for the

control of Brown Blotch Disease of cowpea in South Western Nigeria. Journal

of Sustainable Agriculture and Environment 1(2): 198-202.

Owolade, O.F., Osikanlu, Y.O.K. and Fadare, T.A. (2003). Control of brown blotch of

cowpea using botanicals. Crop Res., 25:561-566.

Owolade, O.F., Alabi, B.S., Osikanlu, Y.O.K. and Odeyemi, O.O. (2004). On-farm

evaluation of some plant extracts as biofungicide and bioinsecticide on cowpea

in South- West Nigeria. Food Agric. Environ., 2: 237-240.

Pandey, A., Shukla, A.N. and Chandra, S. (2006). Pestalotiopsis stem canker of

Jatropha curcas. Indian Forester 132, 763–766.

Pal, R., Mandal, D. and Rath, L.K. (2013). Fungicide and insecticide compatibility

against sheath blight and stem borer of paddy. J. Mycopathol, res, 51(1): 169-

172.

Papavizas, G.C. (1985). Trichoderma and Gliocladium: biology, ecology and

potential for biocontrol. Annu. Rev. Phytopath 23:23-54.

Papavizas, G.C. and Lewis, J.A. (1981). Introduction and Augmentation of Microbial

Antagonists for the Control of Soil-Borne Plant Pathogens. In: Biological

Control in Crop Production, Papavizas, G.C. (Ed.). Allanheld and Qsmun,

Totowa, New Jersey, pp: 305-322.

Patel, S. (2011).Harmful and beneficial aspects of Parthenium hysterophorus: an

update. Biotech 1(3):1–9

Paul, N.K. and Begum, N. (2007). Influence of Root and Leaf Extracts of Argemone

mexicana on Germination and Seedling Growth of Blackgram, Rapeseed and

Wheat. Bangladesh J. Sci. Ind. Res. 42(2), 229-234

Petch, T. (1923). The diseases of tea bush. Macmillan, London, pp.220.

Plamen Marinov-Serafimov. (2010).Determination of allelopathic effect of some

invasive weed species on germination and initial development of grain legume

crops. Pesticidi i fitomedicina 25(3): 251-259

Ponmurugan, P.and Baby, U.I. (2007). Evaluation of fungicides and biocontrol agents

against Phomopsis canker of tea under field conditions. Australas. Plant

Pathol. 36:68-72.

Ponmurugan, P., Baby, U.I. and Gopi, C. (2006). Efficacy of certain fungicides

against Phomopsis theae under in vitro conditions. African Journal of

Biotechnology. 5 (5): 434-436.

Poovendran, Ponnusamykonar., Kalaigandhi, Venkitasamy. and Parivuguna,

Varatharajan. (2011). In vitro study of antagonistic effect of Trichoderma sp.,

on tea plant pathogen, Phomopsis theae. Archives of Applied Science Research,

3 (4):352-358

Powell, C. R. and Ko, W. H. (1986). Screening for antagonistic plants for control of

Phytophthora palmivora in soil. Ann. Phytopathol. Soc. Japan 52:817-824.

Prasad, U.K., Muniappan, R., Ferrar, P., Aeschlimann, J.P. and de Foresta, H. (1996).

Distribution, Ecology and Management of Chromalaena odorata. – In: Prasad,

U.K. et al. (eds.) Proceedings of 3rd International Chromolaena Workshop

Abidjan, Côte D’Ivoire, November 1993. Agriculture Experimental Station

Publication 202, p 203. University of Guam, Mangilao, USA.

Pratley, J. E., Dowling, P., Medd, R., (1996). Allelopathy in annual grasses. Wild

oats, annual ryegrass and vulpia. Proceedings of a workshop held at Orange,

New South Wales, Australia 1: 213 – 214.

Premkumar, R. and Baby, U.I. (2005). Blister blight control—a review of current

recommendations. Journal of Plantation Crops. 101 (5):26–34.

Premkumar, R., Nepolean, P., Vidhya , Pallavi., Balamurugan, A., Jayanthi, R.,

Kuberan, T. and Beulah, T. (2011). Integrated disease management of grey

blight in tea. World Tea Science Congress 43. 22nd

– 24th November

2011(Abstr).

Pretorius, J.C., P.C. Zietsman and D. Eksteen. (2002). Fungitoxic properties of

selected South African plant species against plant pathogens of economic

importance in agriculture. Annala of Appl. Bio., 141(2): 117-124.

Punja, Z.K. and R.S. Ukhtede. (2003). Using fungi and yeast to manage vegetable

crop diseases. Trends Biotechnol., 21:400-407.

Qasem, J.R. and Abu-Blan, H.A. (1966). Fungicidal activity of some common weed

extracts against different plant pathogenic fungi. J. Phytopathol. 144:157-161.

Qasem, J.R. and C.L, Foy. (2001). Weed Allelopathy, its ecological impacts and

future prospects: a review. J. Crop Prod. 4: 43-119.

Qin, B., L.G. Perry., C.D. Broeckling, J.Du, F.R. Stermitz, M.W. Paschke and J.M.

Vivanco. (2006). Phytotoxic allelochemicals from roots and root exudates of

leafy spurge (Euphorbia esula L.). Plant Signaling and Behavior, 1: 323-327.

Rajashekhara, R.B.K., T.N. Shivananda., J, Syamasundara and R. Siddaramappa.

(2007). Effects of allelochemicals from selected carbon sources under flooded

soil conditions on histological abnormalities induced in rice (Oryza sativa L.)

roots. Allelopath. J. 20(2): 347-353.

Rajesh, A.M., Devi, T. Prameela., Malathi, V.G., Kamil Deeba., Borah, J.L.,

Prabhakaran, N.and Srinivasa, N. (2013). A combined morpho-genetic

approach towards identification of Trichoderma sp. J. Mycopathol, Res, 51(1):

19-28.

Ranaware,A., Singh, V. and Nimbikar, N.(2010). In vitro antifungal study of the

efficacy of some plant extracts for inhibition of Alternaria carthami fungus.

Indian Journal of Natural products and Resources.1 (3):384-386.

Ramlogun, H.G.S. (1971). The pests and diseases of tea in Mauritius. Reveu. Agricola

el Sucriere de J’lle Maurice 50:48-67.

Rattan, P.S. and Pawsay, R.G. (1981). Death of tea in Malawi caused by

Pseudophaeolus bandonie. Tropical Pest Management. 27:225-229.

Ravan, P.S. and Pawsay, R.G. (1981). Death of tea in Malawi caused by

Pseudophaeolus bandonie. Tropical Pest Management. 27:225-229.

Reddy, T.S.N., Nagarajan, K and Ramjilal (1992). Effect of fungicides on control of

frog eye spot disease (Cercospora nicotianae) of burley tobacco. Tobacco.

Res., 18: 159-162.

Reigosa, M.J., Sanchez-Moreiras, A. and Gonzalez, L. (1999). Ecological approach in

allelopathy. Critical Review in Plant Science 18, 577-608.

Rice, E.L. (1984). Allelopathy. 2nd ed. Acad. Press. Inc. Orlando. Florida, USA.

Rice, E. L. and Haung, C. Y. (1981). Effects of decomposing rice straw on growth of

and nitrogen fixation of Rhizobium. J. Chem. Ecol. 7: 333 – 344.

Roder, W., Phengchanh, S., Keoboualapha, B. and Maniphone, S. (1995):

Chromolaena odorata in slash-and-burn rice systems of Northern Laos. –

Agroforestry Systems 31: 79-92.

Rudrappa, T., Quinn, W.J., Stanley-Wall, N. R. and Bais, H.P. (2007). A degradation

product of the salicylic acid pathway triggers oxidative stress resulting in

down-regulation of Bacillus subtilis biofilm formation on Arabidopsis thaliana

roots. Planta, 226: 283-297.

Saha,D., Dasgupta, S. and Saha, A. (2005). Antifungal Activity of Some Plant

Extracts Against Fungal Pathogens of Tea (Camellia sinensis). Pharmaceutical

Biology 43(1):87-91

Saha, S., Rai, A.B., Garg, R., Chowdhury, A and Pradhan, S. (2011). Fungitoxicity of

a new formulation of Carbendazim (Pearl 50 SC) against Drechslera oryzae

causing brown spot of rice. J. Mycopathol, res 49 (2): 309-312.

Salehpour, M., H.R. Etebarian, A. Roustaei, G. Khodakaramian and H. Aminian.

(2005). Biological control of common root rot of wheat (Bipolaris sorokiniana)

by Trichoderma isolates. Plant Pathol. J., 4: 85-90.

Sanjay, R., Ponmurugan, P and Baby, U.I. (2008).Evaluation of fungicides and

biocontrol agents against grey blight disease of tea in the field. Crop

Protection. 27(3-5): 689-694.

Sarkar, S., P. Narayanan, A. Divakaran, A. Balamurugan and R. Premkumar, (2010).

The in vitro effect of certain fungicides, insecticides and biopesticides on

mycelial growth in the biocontrol fungus Trichodermaharzianum. Turk. J.

Biol., 34: 399-403. World J. Agric. Sci., 8 (3): 316-321

Satyanarayana, G., Barua, G.C.S. and Baruah, K.C. (1975). Uncommon disease. Two

and a Bud. 24(1). 30.

Sbragia, R.L. (1975). Chemical control of plant diseases. An exciting future. Ann.

Rev. Phytopath., 14: 405-428.

Schilling, R. and Cattan, P. (1991). Sesame cultivation in tropical Africa. Oleaginenx,

46: 129-131.

Schon, M. K. and Einhellig, F. A. (1982). Allelopathic effects of cultivated sunflower

on grain Sorghum. Bot. Gaz. 143: 505 – 510.

Shaigan, S., Seraji, A. and Moghaddam, S.A.M. (2008). Identification and

Investigation on Antagonistic effect of Trichoderma spp. on Tea seedlings

white foot and Root Rot (Sclerotium rolfsii Sacc.) in vitro condition. Pakistan

Journal of Biological Sciences 11(19): 2346-2350.

Sharma, P.D. (1998). Plant pathology. Second edition. Rastogi Publications. Rakesh

Kumar Rastogi.

Sharma, N. and Tripathi, A. (2006). Fungitoxicity of the essential oil of Citrus

sinensis on post-harvest pathogen. World J. Microbiol. Biotechnol., 22: 587-

593.

Skidmore, A.M. and Dickinson, C.J. (1976). Colony interaction and hyphal

interference between Septoria nodorum and phylloplane fungi. Trans.

Br.Mycol.Soc., 66:57-64.

Shin, G.H., J.S. Hur and Y.J. Koh, (2000). Chemical control of gray blight of tea in

Korea. Plant Pathol. J., 16(3): 162-165.

Shindhan, G.S., Hooda, Indra and Parashar, R.D. (1999). Evaluation of plant extracts

for the control of powdery mildew of pea. J. Mycol. Pl.Pathol. 29(2):257-258.

Shivpura, A., Sharma, O.P. and Jhamaria, S.L. (1997). Fungitoxic properties of plant

extracts against pathogenic fungi. Indian J.Mycol. Pl. Pathol. 27(1):29-31.

Shukla, A.K., Prasad, S., Srivastava, S.K., Singh, S.P. and Singh, R.P. (2003).

Allelopathic effect of thatch grass (Imperata cylindrica L.) on various kharif

and rabi season crops and weeds. Indian J Weed Sci 35: 163-166.

Siegel, M.R. and H.D. Sisler. (1977). Antifungal compounds vols. I and II. Marcel

Dekker Inc., New York and Basel.

Silimela, M. and Korsten, L. (2001). Alternative methods for preventing pre and post-

harvest diseases and sunburn on mango fruits. S.A.Mango Growers’ Assoc.

Yearbook. 21: 39–43.

Silva, A.C.F.D.A., Rola, C.R.E.D.A. and Mela, I.S.De. (1999). Susceptibility of

Trichoderma spp. isolate to benomyl and iprodione. Ciencia Rural, 29(3):395-

399

Singh, D.C. (1994). Scope of medicinal and aromatic plants in pest management.

International Symposium, Allelopathy in sustainable Agriculture, Forestry and

Environment, New Delhi, September 6-8, 1994. p. 68.

Singh, H. and Garampalli Rajkumar, H. (2012).Screening of plant extracts for organic

management of downy mildew of sorghum. Archives Of Phytopathology And

Plant Protection 45(14): 1732-1740

Singh, H.P., Batish, D.R., Shalinder, K., Kohli, R.K. and Dogra, K.S. (2005)

Allelopathic interference of Ageratum conyzoides L. against some crop plants.

Weed management: balancing people, planet, profit 14th Australian Weeds

Conference, Wagga Wagga, New South Wales, Australia, 6-9 September-2004.

Papers and proceedings 558-561.

Singh, J. and FaulI, J.L. (1990). Hyperparasitism and biological control, In KG

Mukerji, KL Garg, eds, Biocontrol of Plant Pathogens. CRC Press, Boca Raton

pp 167-179

Singh, L., Kaur, M.J. and Tapwal, A. (2010). Evaluation of chemical and biocontrol

agents for management of Cedrus deodara root rot caused by Phytophthora

cinnamomi. Indian Phytopath. 63(1): 59-62.

Singh, R.K. and Dwivedi, R.S. (1987). Effect of oils on Sclerotiumn rolfsii causing

root rot of barley. Ind J Phytopath .,40: 531-533.

Soytong, K., Kanokmedhakul, S., Kukongviriyapan, V. and Isobe, M. (2001).

Application of Chaetomium species as new broad spectrum biological

fungicide for plant diseases control. Fungal Diversity. 7: 1-15.

Sreenivasaprasad, S. and Manibhushanrao, K. (1990). Biocontrol potential of fungal

antagonists Gliocladium virens and Trichoderma longibrachiatum. Z.

Pftanzenk. Planzens 97:570-579.

Srivastava, K.C. and C.P. Mishra. (2008). Cultural and chemical control of blight of

urd bean. Ann. Pl. Prot. Sci 16 (1): 24-25.

Srivastava, S., V.P. Singh., R, Kumar., Srivastava, M., Sinha, A. and Simon, S.

(2011). In vitro evaluation of carbendazim 50% WP, antagonists and botanicals

against Fusarium oxysporum f. sp. psidii associated with rhizosphere soil of

Guava. Asian J. Plant Pathol., 5: 46-53.

Subhedar, A. and Padwa. (2003). Effect of Rhizosphere fungi on Arhar., prod.

National Conference on Recent Trends in Botany, Amravati University,

Amravati, pp:45.

Subhedar, A., Hande, D. and Dharkar, N. (2006). Effect of some rhizosphere fungal

flora on the productivity of some crop plants. Journal of Agronomy, 5(2):239-

247.

Sudoi, V. and Langat, J.K. (1992). A report on identification of fungi, bacteria

associated with the tea plants in Kenya. Tea 13(2): 76-83.

Sujan, Singh., Pandey, P.C., Ajab, Singh. and Ram Bahadur. 1991. Studies on foliage

diseases of poplars. Indian Forester, 117: 135-142.

Tanti, A., Madhab, M., Bordoloi, M., Phukan, I., Sarmah., Debnath, S. and Barthakur,

B.K. (2011). Seasonal occurrence of leaf surface microflora of tea, Camellia

sinensis (L) O. Kuntze. World Tea Science Congress. 22nd

-24th

November

2011 (Abstr).

Tewari, S.N. (1995). Ocimum sanctum L., a botanical fungicide for rice blast control.

Trop. Sci, 35: 263-273.

Tewari, S.N. and Nayak, M. (1991). Activity of four- plant leaf extracts against three

fungal pathogens of rice. Tropical Agric. (Trinidad) 68:373-375.

Tiwari, K.L. and Sharma, K. (2008). Leaf surface mycoflora of Ocimum sanctum.

Plant Arch., 8:667-669.

Tanveer, A., Tahir, M., Nadeem, M.A., Younis, M., Aziz A. and Yaseen, M. (2008).

Allelopathic effects of Xanthium strumarium L. on seed germination and

seedling growth of crops. Allelopath. J. 21(2): 317-328.

Tanveer, A., Rehman, A., Javaid, M.M., Abbas, R.N., Sibtain, M., Ahmad., Azraf,

U.l. Haq., Ibin-i-zamir, M.S., Chaudhary, K. M. and Aziz, A. (2010).

Allelopathic potential of Euphorbia helioscopia L. against wheat (Triticum

aestivum L.), chickpea (Cicer arietinum L.) and lentil (Lens culinarisMedic.)

Turk J Agric For 34:75-81

Tapwal, A., Y.P. Sharma and T.N. Lakhanpal, (2004). Effect of volatile compounds

released by Gliocladium virens and Trichoderma sp. on the growth of

Armillaria mellea. Indian J. Mycol Plant Pathol., 34:308-310.

Tapwal, A., Sharma, Y.P. and Lakhanpal, T.N. (2005). Use of biocontrol agents

against white root rot of apple. Indian J. Mycol. Plant Pathol., 35: 67-69.

Tewari, S.N. and Nayak, M. (1991). Activity of four- plant leaf extracts against three

fungal pathogens of rice. Tropical Agric. (Trinidad) 68:373-375.

Teviotdale, B.L., Sibbett, G.S. and Harper, D.H. (1989). Control of olive leaf spot by

copper fungicides. Applied Agricultural Research 4: 185–189.

Thoudam, R. and Dutta, B.K. (2012). Black rot disease of tea [Camellia sinensis (L.)

O. Kuntze] caused by Corticium theae and its control. Assam University

Journal of Science and Technology; Biological and Environmental Sciences.

Vol.9 (1): 125-130.

Tinnin, R.O. and Muller, C.H. (2006). The allelopathic influence of Avena fatua. The

allelopathic mechanism. Bulletin of the Torrey Botanical Club 99: 287-292.

Tiwari, K.L. and K. Sharma. (2008). Leaf surface mycoflora of Ocimum sanctum.

Plant Arch., 8:667-669.

Tunstall, A.C. (1930). Some observation on tea roots. The Indian Tea Association

Scientific Department. Quarterly journal, 75-78.

Tunstall, A.C. (1949). Red Rust. Indian Tea Association Tocklai Experimental

Station. Memorandum no-14.

Tunstall, A.C. and Sarmah, K.C. (1947). Black rot of tea in North east India

(Corticium invisum Petch and Corticium theae Bernard). Memorandum No. 13,

Indian Tea Association, Tocklai Experimental station, pp.26.

Tronsmo, Arne (1991). Biological and integrated controls of Botrytis cinerea on apple

with Trichoderma harzianum Biological control. 1(1):59-62.

Turk, M.A. and Tawaha, A.M.(2003). Allelopathic effect of black mustard (Brassica

nigra L.) on germination and growth of wild oat (Avena fatua L.). Crop

Protection.22(4): 673-677

Turkington,T.K., O'Donovan, J. T., Edney, M. J., Juskiw, P. E., McKenzie, R. H., K.

N. Harker, K.N., Clayton, G.C., Xi, K., Lafond,G.P., Irvine,R.B., Brandt, S.,

Johnson, E. N., May W. E. and E. Smith, E. (2012). Effect of crop residue,

nitrogen rate and fungicide application on malting barley productivity, quality,

and foliar disease severity. Canadian Journal of Plant Science, 92(3): 577-588.

Ullah, R., Tanveer, A., Khaliq, A and Hussain, S. (2013). Comparative allelopathic

potential of Fumaria indica L. and Polygonum plebejum L. against field crops.

Pak. J. Weed Sci. Res. 19(1): 15-29

Varma, J., Dubey, N.K. (1999). Prospectives of botanical and microbial products as

pesticides of Tomorrow. Curr. Sci. 76: 172-179.

Vashist, H.and Jindal, A. (2012). Antimicrobial Activities of Medicinal Plants –

Review. International Journal of Research in Pharmaceutical and Biomedical

Sciences. 3 (1):222-230

Veenapani, D. (2004). Inhibition in seed germination of Oryza sativa (paddy) by two

weed species. Flora and Fauna 10: 11-12.

Veena, S. S., Anandraj, M. and Sharma, Y. R. (2006). Compatibility of potassium

phosphonate with Trichoderma harzianum. J. Mycol. Pl. Pathol. 36(2): 171-

174.

Veldhuizen E.J., Tjeerdsma-van Bokhoven, J.L., Zweijtzer C, Burt,S.A. and

Haagsman,H.P. (2006). Structural requirements for the Antimicrobial activity

of carvacrol. J. Agric. Food Chem., 54: 1874-1879.

Vidal, J. (1960). La végétation de Laos – Vol. 2. Douladoure, Toulouse, France.

Vidhya Pallavi, R., Nepolean, P., Balamurugan. A., Pradeepa, N., Kuberan, T. and

Jayanthi, R. (2011). In-vitro studies on antagonistic potential of biocontrol

agents against tea pathogens, Hypoxylon sp. and Pestalotiopsis sp. J Plant Crop

39(1): 244-246).

Vidhya Pallavi, R., Nepolean, P., Balamurugan, A., Pradeepa, N., Kuberan, T.,

Jayanthi, R., Beulah, T. and Premkumar, R. (2012). In vitro studies of

biocontrol agents and fungicides tolerance against grey blight disease in tea.

Asian Pacific Journal of Tropical Biomedicine S435-S438

Vijayaraghavan, r. and Abraham, K. (2004). Compatibility of biocontrol agents with

pesticides and fertilizers used in black pepper gardens. Journal of Mycology

and Plant Pathology. 34:506-510.

Viji, G., Manibhushanrao, K. and Baby, U.I. (1997). Non-target effect of systemic

fungicide on antagonistic microflora of Rhizoctonia solani. Indian Phytopath,

50:324-328.

Vyas, S.C. (1993). Hand book of systemic fungicides, TATA McGraw-Hill Pub.

Company Ltd, New Delhi. pp.446.

Vyas, S.C. (1994). Integrated biological and chemical control of dry root rot on

soybean. Indian J. Mycol. Pl.Pathol., 24:132-134.

Vyvyan, J.R. (2002). Allelochemicals as leads for new herbicides and agrochemicals.

Tetrahedron, 58: 1631-1646.

Wajid, S.M. A., Shenoi, M.M. and Bhaktavatsalam, G. (1986). Control of frog eye

leaf spot disease of tobacco by systemic fungicides. Souvenir VI. Nat. Symp.

On Tobacco, February 13-17: pp. 51-52.

Washington W.S. and McGee, P. (2000). Dimethomorph soil and seed treatment of

potted tomatoes for control of damping off and root rot caused by Phytophthora

nicotianae var nicotianae. Austral Pl. Pathol., 29:46-51.

Watt, G. and Mann, H.H. (1903). The pests and blights of the Tea plant. Government

Printing Press, Calcutta, India XV-pp.429.

Weaver, J. E., Hogmire, H. W., Brooks, J. L. and Sencindiver, J. C.(1990).

Assessment of pesticide residues in surface and soil water from a commercial

apple orchard. Appl. Agric. Res. 5: 37–43.

Weston, L.A. and Duke, S.O. (2003). Weed and Crop allelopathy. Crit. Rev. Plant

Sci. 22(3&4): 367-389.

Yulia, E. and Shipton, W.A. (2008). Fungal Leaf Mycota of selected Aromatic plants

in North Queensland. Australasian Mycologist. 27(1).

CORRELATION TABLEES

Carbendazim

productivity Shoot no Chl a Chl b Chl t Length Sl Sb

productivity 1 -.960**

1

-.405 .144 1

-.290 .517 -.509 1

-.174 -.100 .950

* -.714 1

.985**

-.937*

-.463 -.290 -.245 1

.979**

-.929*

-.481 -.310 -.255 .998

** 1

.949*

-.877 -.569 -.273 -.345 .983

** .991

** 1

Shoot no

Chl a

Chl b

Chl t

Length

Sl

Sb

Copper oxychloride


productivity 1 -.896* -.847 .202 -.684 .798 .913

* .895*

Shoot no 1 .611 -.321 .443 -.981** -.983

** -.993**

Chl a 1 .288 .960** -.458 -.579 -.567

Chl b 1 .544 .400 .443 .406

Chl t 1 -.287 -.379 -.380

Length 1 .957* .976

**

Sl 1 .996**

Sb 1

Captan


productivity 1 -.770 -.336 .522 -.074 .763 .822 .851

Shoot no 1 .394 -.563 .330 -.963** -

.981**

-.977**

Chl a 1 -.274 -.221 -.603 -.493 -.495

Chl b 1 .541 .650 .670 .652

Chl t 1 -.128 -.155 -.162

Length 1 .989** .984

**

Sl 1 .998**

Sb 1

Tetraconazole


productivity 1 -.726 -.369 .621 -.243 .979** .961

** .942*

Shoot no 1 .697 -.127 .659 -.850 -.879* -.903

*

Chl a 1 .387 .981** -.504 -.575 -.599

Chl b 1 .538 .497 .430 .371

Chl t 1 -.397 -.473 -.511

Length 1 .996** .990

**

Sl 1 .997**

Sb 1

Tebuconazole


productivity 1 -.818 -.249 .808 -.044 .950* .959

* .364

Shoot no 1 .749 -.507 .586 -.851 -.860 -.600

Chl a 1 .135 .973** -.400 -.403 -.448

Chl b 1 .360 .710 .709 .347

Chl t 1 -.209 -.212 -.343

Length 1 .999** .208

Sl 1 .232

Sb 1

Mancozeb


productivity 1 -.829 -.172 .194 -.107 .869 .837 .952*

Shoot no 1 .061 -.197 .009 -.952* -.895

* -.893*

Chl a 1 .384 .977** -.345 -.486 -.371

Chl b 1 .574 .032 -.055 .056

Chl t 1 -.300 -.444 -.316

Length 1 .988** .970

**

Sl 1 .964**

Sb 1

Mancozeb + Carbendazim


productivity 1 -.980** -.062 .779 .190 .929

* .942* .928

*

Shoot no 1 .088 -.704 -.150 -.925* -

.965**

-.965**

Chl a 1 .085 .919* -.395 -.278 -.165

Chl b 1 .453 .588 .557 .504

Chl t 1 -.185 -.089 -.010

Length 1 .981** .942

*

Sl 1 .988**

Sb 1

Hexaconazole


productivity 1 .942* -.097 .788 .093 .910

* .915* .813

Shoot no 1 -.132 .876 .083 .995** .994

** .918*

Chl a 1 .300 .975** -.187 -.229 -.418

Chl b 1 .504 .861 .838 .654

Chl t 1 .030 -.013 -.227

Length 1 .999** .939

*

Sl 1 .947*

Sb 1

Sulphur + Copper


productivity 1 -.883* -.031 -.282 -.055 .819 .882

* .916*

Shoot no 1 -.084 -.106 -.160 -.889* -.907

* -.874

Chl a 1 .488 .964** -.380 -.331 -.361

Chl b 1 .695 -.085 -.131 -.266

Chl t 1 -.281 -.254 -.320

Length 1 .992** .969

**

Sl 1 .989**

Sb 1

Ipomoea carnea


productivity 1 -.870 -.390 .400 -.210 .904* .902

* .918*

Shoot no 1 .426 -.572 .180 -.982** -

.993**

-.991**

Chl a 1 .476 .964** -.555 -.498 -.396

Chl b 1 .692 .419 .495 .579

Chl t 1 -.332 -.263 -.155

Length 1 .992** .975

**

Sl 1 .993**

Sb 1

Chromolaena odorata


productivity 1 .912* .563 .308 -.334 .850 .871 .785

Shoot no 1 .524 .392 -.520 .983** .989

** .935*

Chl a 1 .483 .152 .382 .420 .216

Chl b 1 .459 .397 .430 .378

Chl t 1 -.570 -.527 -.590

Length 1 .998** .983

**

Sl 1 .976**

Sb 1

Aspergillus niger


productivity 1 .917* -.129 .510 .077 .922

* .951* .932

*

Shoot no 1 -.426 .167 -.298 .995** .995

** .995**

Chl a 1 .264 .937* -.465 -.361 -.365

Chl b 1 .585 .221 .252 .195

Chl t 1 -.311 -.213 -.236

Length 1 .993** .986

**

Sl 1 .993**

Sb 1

Aspergillus flavus


productivity 1 -.907* -.382 .218 -.281 .947

* .961** .869

Shoot no 1 -.034 -.353 -.143 -.862 -.845 -.593

Chl a 1 .112 .951* -.352 -.416 -.778

Chl b 1 .415 .045 .032 .169

Chl t 1 -.308 -.371 -.659

Length 1 .996** .784

Sl 1 .831

Sb 1

Penicillium janthenellum


productivity 1 .973** -.384 -.767 -.478 .967

** .963** .950

*

Shoot no 1 -.450 -.859 -.597 .997** .999

** .969**

Chl a 1 .650 .718 -.416 -.477 -.277

Chl b 1 .923* -.872 -.880

* -.843

Chl t 1 -.616 -.631 -.584

Length 1 .997** .983

**

Sl 1 .965**

Sb 1

Trichoderma atroviride


productivity 1 .801 -.715 -.532 -.801 .800 .877 .818

Shoot no 1 -.197 -.445 -.325 .997** .987

** .979**

Chl a 1 .231 .942* -.198 -.343 -.274

Chl b 1 .544 -.391 -.425 -.287

Chl t 1 -.307 -.444 -.337

Length 1 .988** .989

**

Sl 1 .988**

Sb 1

Trichoderma citrinoviride


productivity 1 .995** -.580 .642 -.349 .939

* .972** .954

*

Shoot no 1 -.553 .707 -.298 .962** .988

** .959**

Chl a 1 -.079 .939* -.368 -.492 -.347

Chl b 1 .267 .862 .804 .770

Chl t 1 -.066 -.205 -.083

Length 1 .990** .978

**

Sl 1 .970**

Sb 1

A ni ( 1990 ) - INFLIBNETshodhganga.inflibnet.ac.in/bitstream/10603/39560/17/17...ogy 87 - 91. d ta...

Documents

Transcript of A ni ( 1990 ) - INFLIBNETshodhganga.inflibnet.ac.in/bitstream/10603/39560/17/17...ogy 87 - 91. d ta...