World Literature on Medicinal Plants from Pankaj Oudhia’s Medicinal Plant Database -81
World Literature
on Medicinal Plants from Pankaj Oudhia’s Medicinal Plant Database -81
World Literature on Medicinal Plants
Quoted/Consulted/Modified/Improved/Discussed/Used/Corrected in Pankaj Oudhia’s
Medicinal Plant Database.
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Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 328. Neem (Azadirachta
indica)+Pongamia pinnata based formulation (With
18+10 Herbs) . CGBD (Offline
Database on Chhattisgarh Biodiversity), Raipur,
India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 329. Neem (Azadirachta
indica)+Pongamia pinnata based formulation (With
18+12 Herbs) . CGBD (Offline
Database on Chhattisgarh Biodiversity), Raipur,
India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 330. Neem (Azadirachta
indica)+Pongamia pinnata based formulation (With
18+14 Herbs) . CGBD (Offline
Database on Chhattisgarh Biodiversity), Raipur,
India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 331. Neem (Azadirachta
indica)+Pongamia pinnata based formulation (With
18+18 Herbs) . CGBD (Offline
Database on Chhattisgarh Biodiversity), Raipur,
India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 332. Neem (Azadirachta
indica)+Pongamia pinnata based formulation (With 3+5
Herbs) . CGBD (Offline
Database on Chhattisgarh Biodiversity), Raipur,
India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 333. Neem (Azadirachta
indica)+Pongamia pinnata based formulation (With 3+9
Herbs) . CGBD (Offline
Database on Chhattisgarh Biodiversity), Raipur,
India. Oudhia, P. (2009). Traditional
Agricultural Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 334. Neem (Azadirachta
indica)+Pongamia pinnata based formulation (With
3+10 Herbs) . CGBD (Offline
Database on Chhattisgarh Biodiversity), Raipur,
India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 335. Neem (Azadirachta
indica)+Pongamia pinnata based formulation (With
3+15 Herbs) . CGBD (Offline
Database on Chhattisgarh Biodiversity), Raipur,
India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 336. Neem (Azadirachta
indica)+Pongamia pinnata based formulation (With
3+16 Herbs) . CGBD (Offline
Database on Chhattisgarh Biodiversity), Raipur,
India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 337. Neem (Azadirachta
indica)+Pongamia pinnata based formulation (With
3+18 Herbs) . CGBD (Offline
Database on Chhattisgarh Biodiversity), Raipur,
India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 338. Neem (Azadirachta
indica)+Pongamia pinnata based formulation (With
3+20 Herbs) . CGBD (Offline
Database on Chhattisgarh Biodiversity), Raipur,
India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 339. Neem (Azadirachta
indica)+Pongamia pinnata based formulation (With 3
Herbs) . CGBD (Offline Database
on Chhattisgarh Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural Knowledge
in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 340. Neem (Azadirachta
indica)+Pongamia pinnata based formulation (With 4
Herbs) . CGBD (Offline Database
on Chhattisgarh Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 341. Neem (Azadirachta
indica)+Pongamia pinnata based formulation (With 5
Herbs) . CGBD (Offline Database
on Chhattisgarh Biodiversity), Raipur, India. Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 342. Neem (Azadirachta
indica)+Pongamia pinnata based formulation (With 6
Herbs) . CGBD (Offline Database
on Chhattisgarh Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 343. Neem (Azadirachta
indica)+Pongamia pinnata based formulation (With 9
Herbs) . CGBD (Offline Database
on Chhattisgarh Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 344. Neem (Azadirachta
indica) +Ipomoea carnea based formulation (With 33
Herbs) . CGBD (Offline Database
on Chhattisgarh Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 345. Neem (Azadirachta
indica)+Ipomoea carnea based formulation (With 4
Herbs) . CGBD (Offline Database on
Chhattisgarh Biodiversity), Raipur, India.
BULGUNDI, S. S., 2000, Heterosis and combining
ability in brinjal (Solanum melongena L.).
M. Sc. (Agri.) Thesis, University of Agricultural
Sciences, Dharwad.
CHADHA, M. L. AND HEGDE, R. K., 1987, Graphic
analysis of some agronomic characters in
brinjal. The Indian Journal of Horticulture, 44 :
220-225.
CHADHA, M. L. AND SIDHU, A. S., 1982, Studies on
hybrid vigour in brinjal (Solanum
melongena L.). The Indian Journal of Horticulture,
39 : 233-238.
CHADHA, M. L., JOSHI, A. K. AND GHAI, T. R.,
1990, Heterosis breeding in brinjal. The
Indian Journal of Horticulture, 47 : 417-423.
CHADHA, S., BAHADAR SINGH AND KUMAR, J., 2001,
Heterosis in brinjal. Karnataka
Journal of Agricultural Sciences, 14(4) : 1130-1133.
CHAUDHARY, B., 1976, Vegetables (4
th
Edn.),
National Book Trust, New Delhi, pp. 50-58.
CHAUDHARY, D. R., 2000, Inheritance of resistance to
bacterial wilt (Ralstonia
solanacearum
E. F. Smith) in eggplant. Haryana
Journal of Horticultural
Sciences, 29(1) : 89-90.
CHAUDHARY, D. R. AND MALHOTRA, S. K., 2000,
Combining ability of physiological growth
parameters in brinjal (Solanum melongena L.).
Indian Journal of Agricultural
Research, 34 : 55-58.
CAPINPIN, J. M. AND ALVIAR, M. A., 1949,
Heterosis in eggplant. Philippines
Agriculture
and Forestry, 33 : 126-141.
CRISTINZIO, G. AND SACCARDO, F., 1982, Resistance in
Capsicum to phytophera capsici
introduced by using gamma rays. Capsicum
Newsletters, p. 68.
DAHIYA, M. S., DHANKHAR, B. S. AND KALLOO, G., 1984,
Hybrid performance in eggplant
(Solanum melongena L.). Haryana Journal of
Horticultural Sciences, 13 : 147-
149.
DHANKHAR, B. S., MEHROTRA, N. AND SINGH, K.,
1980, Heterosis in relation to yield
components and shoot/fruit borer (Leucinodes
orbonalis sp.) in brinjal
(Solanum melongena L.). Genetica Agraria, 34 :
215-220.
DHOPTE, A. M. AND MORE, D. R., 1975, Gamma
irradiation induced change in crude
protein and vitamin C content of brinjal. Punjabrao
Krishi Vidyapeet Research
Journal, 3(2) : 126-128.
EDGINGTON, L. V., CORDEN, M. E. AND DIAMOND, A. E.,
1961, The role of pectic
substances in chemically induced resistance to
Fusarium wilt of tomato.
Phytopathology, 51 : 179-182.
FENG, L. L., QU, D. Y., JIN, L. AND LIANG, Y., 2003,
Genetic analysis of resistance to
bacterial wilt (Ralstonia solanacearum) in eggplant
(Solanum melongena L.).
Acta Horticulture-Sinica, 30(2) : 163-166.
FUGRO, P. A., RAJPUT, J. C., PATIL, V. H. AND
JADHAV, D. A., 1994, New bacterial wilt
resistant F1 hybrids of eggplant. Capsicum and Eggplant Newsletters, 13 :
107-109.
GEETA, P. T. AND PETER, K. V., 1993, Bacterial wilt
resistance in a few selected lines and
hybrids of brinjal (Solanum melongena L.). Journal
of Tropical Agriculture, 31 :
274-276.
GIRISHA, B. R., 1993, Breeding for shoot and
fruit borer (Leucinodes arbonalis Guene)
resistance in brinjal (S. melongena L.) through
interspecific hybridization and
mutation. M. Sc. (Agri.) Thesis, University of
Agricultural Sciences, Bangalore.
GOPALAKRISHNAN, T. R., SINGH, P. K., SHEELA, K. B.,
SHANKAR, M. A., KUTTY, P. C.
J. AND PETER, K. V., 2005, Development of bacterial
wilt resistant varieties
and basis of resistance in eggplant (Solanum
melongena L.). Bacterial Wilt
Disease and the Ralstonia solanacearum Species
Complex (Ed. Allen, C.,
Prior, P. and Hayword, A., USA), pp. 293-300.
GOPIMONY, R., NAIR, N. K. AND NAIR, N. G., 1982,
Breeding for bacterial wilt resistance in
eggplant. Mutation Breeding Newsletter No. 20, pp.
8-9.
GOPINATH, G. AND MADALAGERI, B. B., 1986, Bacterial
wilt (Pseudomonas solanacearum
E. F. Smith) resistance in eggplant. Vegetable
Science, 13 : 189-195.
GOUSSETIC, C., COLLONIER, C., MULYA, K., MARSIKA,
J., RATIONO, G. L., BESSE, P.,
SERVECS, A. AND DARASINH, S., 2005, Solanum tarvum,
useful source of
resistance against bacterial wilt and fungal
diseases for improvement of
eggplant (Solanum melongena L.). Plant Science,
168(2) : 319-327.
GUVAROVA, G. F., KHRUSTALEVA, V. V. AND SCHERBAKOV,
V. K., 1987, Mutant lines of
current tomato, valuable germplasm with multiple
disease resistance. Mutation
Breeding Newsletter, 30 : 8-10.
HAYES, H. K., IMMER, I. R. AND SMITH, D. C., 1955,
Methods of Plant Breeding, McGraw
Hill Company Inc., New York, p. 473.
HUANG, H. C. AND HUANG, J. W., 1993, Prospects for
control of soil borne plant pathogens
by soil amendment. Current Tropics Botanical
Research, 1 : 223-235.
INDIRESH, K. M., SHIVASHANKAR, K. T. AND
KULKARNI, R. S., 2005, Gene action for
yield and its components in brinjal (Solanum
melongena L.). Mysore Journal of
Agricultural Sciences, 39(1) : 50-56.
INGALE, B. V. AND PATIL, S. J., 1997, Diallel
analysis of fruit characteristics in eggplant.
Panjabrao Krishi Vidyapeeth Research Journal, 21 :
30-34.
INGALE, B. V., PATIL, S. J. AND BASARKAR, P. W.,
1997, Heterosis for biochemical
composition of fruits in eggplant (Solanum
melongena L.). Indian Journal of
Horticulture, 54(4) : 327-332.
KALE, P. N., LAWANDE, K. E., RAIJADHAV, S. B. M.,
CHAUDHARI, K. G. AND SONONE,
H. N., 1989, Pragati – A new brinjal cultivar with
high yield and excellent fruit
quality. Maharashtra Journal of Horticulture, 5 :
154-160.
KALLOO, G., 1988, Vegetable Breeding, CRC Press
Inc., 1 : 193-226.
KALLOO, G., SINGH, K. AND BHUTANI, R. D., 1973,
Mutations in vegetable crops. The
Punjab Horticultural Journal, 13 : 63-87.
KAMANNAVAR, P. Y., 1981, Studies on mutagenesis in
chilli (Capsicum annuum L.). M. Sc.
(Agri.) Thesis, University of Agricultural Sciences,
Bangalore.
KANTHASWAMY, V., NATARAJAN, S., SRINIVASAN, K.
AND ANANTHALAKSHMI, A.,
2003, Genetic studies in brinjal (Solanum melongena
L.). South Indian
Horticulture, 51(1-6) : 144-148
KAPILIVICH, D. I., KRYZHAROVSKAYR, S. S. AND
PUKHTINSKAYA, Z. M., 1981,
Mutangenesis in breeding tomato for immunity. Vestnik
Sciskokhozyaistevennoi, Nauki, No. 5 : 52-54.
KARAGANNI, S. B., 2003, Studies on double crosses
involving potential brinjal hybrids. M.
Sc. (Agri.) Thesis, University of Agricultural
Sciences, Dharwad.
KAUR, J., PATEL, J. A., PATEL, M. J., BHANVADIA, A.
S. AND ACHARYA, R. R., 2001a,
Heterosis for fruit yield and its components in
brinjal (Solanum melongena L.).
Capsicum and Eggplant Newsletter, 20 : 102-105.
KAUR, J., PATEL, J. A., PATEL, M. J., PATEL, M. N.,
PATEL, A. D., BHANVADIA, A. S.,
2001b, Superiority of brinjal hybrids for quality
traits. Capsicum and Eggplant
Newsletter, 20 : 98-101.
KELMAN, A., 1953, The bacterial wilt caused by
Pseudomonas solanacearum. A literature
review and bibliography. North Carolina Agriculture
Experimental Station,
Technical Bulletin, 99 : 194-197.
KEMPTHRONE, O., 1957, An Introduction to Genetic
Statistics, John Wiley and Sons Inc.,
New York, pp. 208-223.
KISHORE, V., SUNAINA, V. AND SHEKAWAT, G. S., 1992,
Relative effectiveness of various
crop rotations on the incidence of bacterial wilt.
Indian Journal of Agricultural
Sciences, 51 : 49.
KULKARNI, G. P., 2003, Investigation on bacterial
wilt resistance in tomato. Ph. D. Thesis,
University of Agricultural Sciences, Dharwad.
KUMAR, R., PRASAD, K. K. AND SINGH, D. N., 1999,
Heterosis in brinjal (Solanum
melongena L.). Journal of Research, 11 : 217-227.
MADALGERI, B. B., SULLADMATH, V. V. AND BELKHINDI,
G. B., 1983, Wilt resistant high
yielding hybrid brinjal. Current Research, 12(2) :
108-109.
MANDAL, A. K., PANDIT, M. K. AND MAITY, T. K., 1994,
Heterosis in brinjal (Solanum
melongena L.). Crop Research, 8 : 291-295.
MANKAR, S. W., KALE, P. B., DOD, V. N., WANKHADE, R.
V. AND JADHAV, B. J., 1995,
Heterosis in eggplant (Solanum melongena L.). Crop
Research, 10 : 331-337.
MEHTA, P. J., SHUKLA, M. R., DOSHI, K. M. AND
SHUKLA, P. T., 1999, Chemical
mutagenesis in chilli (Capsicum annuum L.).
Vegetable Science, 26 : 12-17.
MESHRAM, L.
D., WANDHARE, M. R., KULWAL, L. V. AND SWATI BHARAD, 2000, Macromutations in
gamma irradiated chilli (Capsicum annuum
L.). Capsicum and
Eggplant Newsletter, 19 : 86-88.
MEW, T. W. AND HO, W. C., 1976, Varietal resistance
to bacterial wilt in tomato. Plant
Disease Reporter, 60 : 264-268.
MICHAL, V. V., WANG, J. F., MIDMORE, D. J. AND
HORTMAN, G. L., 1997, Effects of
intercropping and soil amendment with urea and
calcium oxide on the
incidence of bacterial wilt of tomato and survival
of soil borne Pseudomonas
solacearum in tomato. Plant Pathology, 46 : 600-610.
MISHRA, S. N. AND MISHRA, R. S., 1990, Diallel
analysis for combining ability in brinjal.
Indian Journal of Horticulture, 47 : 239-243.
MORRA, L. AND BILOTTO, M., 2006, Evaluation of new
root stocks for resistance to soil
borne pathogens and procedure behaviour of pepper
(Capsicum annuum L.).
Journal of Horticultural Sciences and Biotechnology,
81(3) : 518-524.
NAGAI, K. AND KIDA, M., 1926, An experiment with
some crosses of eggplant. Japanese
Journal of Genetics, 4 : 10-30 (Biological Abstract,
3 : 4571-9291).
NANDADEVI, 2004, Genetic studies in bell pepper
(Capsicum annuum L. var. grossum
sendt.). Ph. D. Thesis, University of Agricultural
Sciences, Dharwad.
NARASIMHA RAO, 1979, The barriers of hybridization
between Solanum melongena L. and
some other species of Solanum. In : Hawkes, J. G.,
Lester, R. N., Skalding, A.
D. (Eds.), The Biology and Taxonomy of the
Solanaceae, pp. 605-614.
OJIEWO, C. O., AGONG, S. G., MURAKAMI, K., TANAKA,
A., HOSE, Y. AND MASUDA, M.,
2005, Male sterility induced by gamma ray
irradiation of African nightshade
(Solanum nigrum L. ssp. Villosum) seed. Journal of
Horticultural Sciences and
Biotechnology, 80(6) : 699-704.
PADMANABHAM, V. AND JAGADISH, C. A., 1996, Combining
ability studies on yield
potential of round fruited brinjal (Solanum
melongena L.). Indian Journal of
Genetics, 56 : 141-146.
PANSE, V. G. AND SUKHATME, P. V., 1967, Statistical
Methods for Agricultural Workers,
Indian Council of Agricultural Research, New Delhi,
p. 152-161.
PATIL, H. S. AND SHINDE, Y. M., 1984, Combining
ability studies for different characters in
eggplant. Journal of Maharashtra Agricultural
Universities, 10 : 179-181.
PATIL, P. N., 1991, Heterosis breeding in eggplant
(Solanum melongena L.). M. Sc. (Agri.)
Thesis, University of Agricultural Sciences,
Dharwad.
PATIL, R. V., 1998, Heterosis, combining ability and
disease reaction studies in brinjal. Ph. D.
Thesis, University of Agricultural Sciences,
Dharwad.
PATIL, S. D., DESALE, S. D. AND BADAGUJAR, C. D.,
2003, Genetics of yield components
in brinjal (Solanum melongena L.). Advances in Plant
Sciences, 16(1) ; 281-
286.
PONNUSWAMI, V., 1999, Studies on bacterial wilt
resistance of selected eggplant
accessories inoculated with Pseudomonas solanacearum
PSSS97 for 30 days
under growth room conditions at Asian Vegetable
Research and Development
Centre. Capsicum and Eggplant Newsletter, 12 :
91-93.
PONNUSWAMI, V., IRULAPPAN, I. AND THAMBURAJ, S.,
1994, Heterosis in eggplant
(Solanum melongena L.). South Indian Horticulture,
42 : 50-52.
PRABHU, M., NATARAJAN, S. AND PUGALENDHI, L., 2005,
Studies on heterosis and mean
performance in brinjal (Solanum melongena L.). Vegetable Science, 32(1) :
86-87.
PRAKASH, SHIVASHANKAR, K. T. AND GOWDA, P. H. R.,
1993, Line × tester analysis of
hybrid vigour in brinjal (Solanum melongena L.).
Progressive Horticulture, 25 :
123-129.
PRAKASH, SHIVASHANKAR, K. T. AND GOWDA, P. H. R.,
1994a, Assessment of
resistance to bacterial wilt disease in brinjal
(Solanum melongena L.).
Karnataka Journal of Agricultural Sciences, 7 :
273-276.
PRAKASH, SHIVASHANKAR, K. T. AND GOWDA, P. H. R.,
1994b, Line × tester analysis for
combining ability in brinjal (Solanum melongena L.).
Crop Research, 8 : 296-
301.
PRASATH, D., NATARAJAN, S. AND THAMBURAJ, S., 1998,
Studies on heterosis in
eggplant (Solanum melongena L.). South Indian Horticulture, 46(5-6): 247-
250.
PRATIBA, SINGH, Y. V. AND GUPTA, A., 2004, Heterosis
in brinjal (Solanum melongena L.).
Progressive Horticulture, 36(2) : 335-338.
RAI, M., GUPTA, P. N. AND AGARWAL, R. C., 1995,
Catalogue on eggplant (Solanum
melongena L.) germplam part I. National Bureau of
Plant Genetic Resources,
Pusa Campus, New Delhi, pp. 1-3.
RAI, N., SINGH, A. K. AND TIRKEY, T., 2000a,
Phenotypic stability in long fruited brinjal
hybrids. Vegetable Science, 27(2) : 133-135.
RAI, N., SINGH, A. K. AND TIRKEY, T., 2000b,
Stability analysis in round fruited brinjal
hybrids. Vegetable Science, 27(4) : 530-535.
RAI, P. V., SHIVAPPASHETTY, K. K. A. AND
VASANTHASHETTY, K. P., 1975, Bacterial wilt
of petunia and source of inoculum. Current Research,
4 : 173-174.
RAMASWAMY, N. AND SAYED, S., 1977, Studies on the
effect of gamma rays on eggplant
(Solanum melongena L.). Progressive Horticulture,
9(2) : 77-79.
RASTAINO, F., 1986, ‘Picentia’, ‘Mala’, ‘Floralba’ :
new eggplant cultivars obtained through
mutagenesis and cross. Gen. Agraria, 40(4) :
469-470.
ROWE, P. E. AND SEQUERIA, L., 1970, Inheritance
of resistance to Pseudomonas
solanacearum in Solanum phureja. Phytopathology, 60
: 1499-1501.
SABITA, J. N., BORUAH, B. M. AND RACHID, H. A.,
2000, Yield potentiality of some brinjal
cultivars in severely bacterial wilt infected
condition. Vegetable Science, 27 :
76-77.
SADASHIVA, A. T., MADHAVIREDDY, K., DESHPANDE, A. A.
AND SINGH, R., 1994, Yield
performance of eggplant lines resistance to
bacterial wilt. Capsicum and
Eggplant Newsletter, 13 : 104-106.
SAKATA, Y., MONMA, S., NARIKAWA, T. AND KOMOCHI, S.,
1996, Evaluation of
resistance to bacterial wilt and verticillium
wilt in eggplants (Solanum
melongena L.)
collected in Malaysia. Journal of the
Japanese Society for
Horticultural Sciences, 65 : 81-88.
SATYANARAYANA, B., SADANANDAM, A., MEERABAI, A.,
VENKATARAJAM, M. AND
SUBASH, K., 1980, Sterile mutant induced by
mitomycin in Solanum
melongena L. Geobios, 7(5) : 222-227.
SAWANT, S. V., DESAI, U. T., KALE, P. N. AND JOI, M.
B., 1991, Combining ability studies
in eggplant for wilt resistance and yield
characters. Journal of Maharashtra
Agricultural Universities, 16 : 343-346.
SAWANT, S. V., DESAI, U. T., KALE, P. N. AND JOI, M.
B., 1992, Heterosis studies in
brinjal. Journal of Maharashtra Agricultural
Universities, 17 : 394-396.
SHANKARAIAH, V. AND RAO, P. R., 1990, Studies on
heterosis for growth characters and
earliness in brinjal. Vegetable Science, 17 : 56-62.
SHARMA, J. P. AND KUMAR, S., 2000, Management
of Ralstonia wilt through soil
disinfectent, mulch, lime and cakes in tomato
(Lycpersicon esculentum).
Indian Journal of Agricultural Sciences, 70 : 17-19.
SHARMA, J. P., SINGH, D. P. AND PRASAD, V. S. R. K.,
2005, Differential reaction and
source resistance to wilt caused by Pseudomonas solanacearum in brinjal
(Solanum melongena
L.). The Indian Journal of
Agricultural Sciences, 65 :
686-690.
SHEKAWAT, G. S., GADEKAR, A. V., BAHAL, D. K. AND
VERMA, R. K., 1988, Cultural
practices for managing bacterial wilt of potato in
“Bacterial Diseases of Potato
Report of the Planning Conference on Bacterial
Diseases of the Potato 1987”,
International Potato Centre, Lima, Peru, pp. 65-84.
SHIELDS, R. AND BURNETT, W., 1960, Determination of
protein bound carbohydrates in
Serum by modified anthracnose method. Annals of
Chemistry, 37 : 885.
SHULL, G. H., 1914, What is heterosis? Genetics, 33
: 430-446.
SIDDIQUE, B. A., 1986, Influence of EMS, DES,
metanitrophenol and colchicine in eggplants
(Solanum melongena L.). Journal of Indian Botanical
Society, 65 : 81.
SIDHU, A. S. AND CHADHA, M. L., 1985, Heterosis and
per se performance studies in
brinjal. Indian Journal of Horticulture, 42 :
107-111.
SIDHU, A. S., BAL, S. S., BEHERA, T. K. AND MAMTA
RANI, 2004, An outlook in hybrid
eggplant breeidng. Journal of New Seeds, 6(2/3) :
15-29.
SINGH, B. AND KUMAR, N., 1988, Studies on hybrid
vigour and combining ability in brinjal
(Solanum melongena L.). Vegetable Science, 15 :
72-78.
SINGH, B. AND SINGH, A. K., 2004, Gene effects
for various quantitative traits in
brinjal
(Solanum melongena L.). Crop Research, Hissar, 27(1)
: 109-110.
SINGH, D. P. AND PRASAD, V. S. R. K., 1992, Full
diallel analysis of yield and its
contributing characters in round fruited brinjal
under Alfisols. Vegetable
Science, 19 : 201-205.
SINGH, H. AND KALDA, T. S., 1989, Heterosis and
genetic architecture of leaf and yield
characters in eggplant. Indian Journal of
Horticulture, 48 : 53-58.
SINGH, R. AND MAURYA, A. N., 2004, Combining ability
studies for number and weight of
marketable fruits in brinjal (Solanum melongena L.).
Progressive Horticulture,
36(2) : 352-355.
SINGH, R. D. AND RAI, B., 1990, Studies on heterosis
and gene action in brinjal (Solanum
melongena L.). Vegetable Science, 17 : 180-185.
SMITH, E. F., 1920, Brown rot of Pseudomonas
solanacearum. An introduction to bacterial
disease of plants, W. B. Saunder Company,
Philadelphia, US, pp. 177-201.
SOHI, H. S., RAO, M. V. B., RAWAL, R. D. AND
RAMKISHUN, 1981, Effect of crop rotation
on bacterial wilt of tomato and eggplant. Indian Journal of Agricultural
Sciences, 51 : 572-573.
SOM, M. G. AND MAITY, J. K., 2002, Brinjal –
Vegetable Crops, 3
rd
revised
edition, edited by
Bose, T. K., Kabir, J., Maity, T. K., Parthasarthy,
V. A. and Som, M. G., Naya
Prokash Publishers, Kolkatta. 1 : 265-344.
SOOD, A. K., 2005, Bacterial wilt of solanaceous
vegetable crops and its management in
challenging problems. In : Horticultural and forest
pathology (Ed. Sharma R. C.
and Sharma, J. N.), Indus Publishing Company Private
Limited, New Delhi, pp.
167-182.
SPRAGUE, G. F. AND TATUM, L. A., 1942, General
versus specific combining ability in
single crosses of corn. Journal of American Society
of Agronomy, 3 : 923-942.
SRINIVASAN, K. AND GOPIMONY, R., 1969, On the
resistance of wild brinjal variety to
bacterial wilt. Agricultural Research Journal,
Kerala, 7(1) : 39-40.
STONE, A. G., VALLAD, G. E., COOPERBAND, L. R.,
ROTENBERG, D., DORRY, H. M.,
JAMES, R. V., STEVENSON, W. R. AND GOODMAN, R. M.,
2003, Effect of
organic amendments on soil borne and foliar disease
in field grown snap bean
and cucumber. Plant Disease, 87 : 1037-1042.
SWAIN, T. AND HILLIS, W. E., 1959, The phenolic
constituents of Prunus domestica L. The
quantitative analysis of phenolic constituents.
Journal of the Sciences of Food
Agriculture, 10 : 63-68.
SWAMINATHAN, M. AND SRINIVASAN, K., 1972, Studies on
brinjal hybridization II.
Transference of bacterial wilt resistance from wild
brinjal variety. Agricultural
Research Journal, Kerala, 9(1) : 11-13.
TATESI, T., 1927, On the first generation hybrid of
eggplant. Central Bulletin on Horticulture,
Japan, 187 : 19-21.
TOMAR, B. S. AND KALDA, J. S., 1998, Production
system. Is eggplant nutritious? TVIS
Newsletter, 1(1) : 26.
TURNER, J. H. J., 1953, A study heterosis in upland
cotton II. Combining ability and
inbreeding effects. Agronomy Journal ,43 :
487-490
VARSHNEY, N. C., SINGH, Y. V. AND SINGH, B. V.,
1999, Combining ability studies in
brinjal (Solanum melongena L.). Vegetable Science,
26 : 41-44.
VAVILOV, N. I., 1931, The role of Central Asia in
the origin of cultivated plants. Bulletin of
Applied Botany – Genetics and Plant Breeding, 26(3)
: 3-44.
VERMA, R. K. AND SHEKAWAT, G. S., 1991,Effect of
crop rotation and chemical soil
treatments on bacterial wilt of potato. Indian
Phytopathology, 44 : 5-8
VIJAYAGOPAL, P. D. AND SETHUMADHAVAN, P., 1973,
Studies on the intervarietal
hybrids of
Solanum melongena L.. Agricultural Research Journal, Kerala,
11(1) : 43-46.
WORKNEH, F. AND VAN BRUGGER, A. H. C., 1994,
Suppression of corky root of tomatoes
in soils from organic farms associated with soil
microbial activity and nitrogen
status of soil and tomato tissue. Phytopathology, 84
: 688-693.
YAMAZAKI, H. AND HOSHINAI, T., 1995, Calcium nutrition
affects resistance of tomato
seedlings to bacterial wilt. Horticultural Science,
30 : 91-93.
YABUCHI, E., KOSAKO, Y., YANO, I., HOTTA, H. AND
NISHIUCHI, Y., 1995, Transfer of two
Burkholderia
and Alcaligenes species to
Ralstonia gen nor proposal of
Rolstonia picketti
(Ralston, Palleroni and Doudoroff, 1973). comb. nov.
Ralstonia eutropha (Smith, 1896) comb. nov. and
Ralstonia eutropha (Davis,
1969) comb. nov. Microbiology and Immunology, 39 :
897-904.
ZHU, H., YAO, Y. G., LIU, Z. M., YANG, J. G. AND
CHEN, H. M., 2004, On resistance to
bacterial wilt in eggplant (Solanum melongena
L.). Journal of Hunas
Agricultural University, 30(3) : 288-289
[1] Hartwell JL. Plants used against cancer. A
survey. Lloydia
1969;32:247–96.
[2] Hartwell JL. Plants used against cancer. A
survey. Lloydia
1969;32:153–205.
[3] Hartwell JL. Plants used against cancer. A
survey. Lloydia
1969;32:78–107.
[4] Hartwell JL. Plants used against cancer. A
survey. Lloydia
1970;33:288–392.
[5] Hartwell JL. Plants used against cancer. A
survey. Lloydia
1970;33:97–194.
[6] Hartwell JL. Plants used against cancer. A
survey. Lloydia
1971;34:386–425.
[7] Hartwell JL. Plants used against cancer. A
survey. Lloydia
1971;34:204–55.
[8] Hartwell JL. Plants used against cancer. A survey.
Lloydia
1971;34:310–61.
[9] Hartwell JL. Plants used against cancer. A
survey. Lloydia
1971;34:103–50.
[10] Pandey G. Anticancer herbal drugs of India with
special reference
to Ayurveda. New Delhi: Sri Satguru Publications;
2002:18–121.
[11] Sharma PV. Charaka samhita. Varanasi:
Choukhamba Orientalia;
1981.
[12] Bhishagratha KL. Sushruta samhita. Varanasi:
Choukhamba Orientalia; 1991.
[13] Prasad GC. Studies on cancer in Ayurveda and
its management.
JRAS 1987;3:147–67.
[14] Singh RM. An assessment of ayurvedic concept of
cancer and a new
paradigm of anticancer treatment in Ayurveda. J
Altern Complement
Med 2002;8:609–14.
[15] Sankaran PS. Swellings. In: Prasad GC, Udupa
KN, editors.
Susruta’s contribution to surgery. Varanasi:
Indological Book House;
1976. p. 99–111.
[16] Dash B, Kashyap L. Diagnosis and treatment of
Galaganda, Gandamala, Apaci, granthi and arbuda. In: Dash B, Kashyap L,
editors. Diagnosis and treatment of diseases in ayurveda. New Delhi:
Concept Publishing Company; 1987. p. 437–66.
[17] Sastry JLN. Introduction to oncology, cancer in
Ayurveda. Varanasi:
Chaukhambha orientalia; 2001. p. 1–24.
[18] Thatte U, Dhahanukar S. Ayurveda, the natural
alternative. Sci
Today 1991;2001:12–8.
[19] Ram A. Astanga-hrdaya of vagbhata. vol. III.
Uttara-sthana. Delhi:
Uppal Publishing House; 1999.
[20] Kinjavadekara RS. Astanga sangraha. New Delhi:
Uppal Publishing
House; 1998.
[21] Sharma PV. Chakradatta: a treatise on
principles and practices of
Ayurvedic medicine. New Delhi: Vedams Books
International; 1998.
[22] Murthy KRS. Sarangadhara samhita. Varanasi:
Chaukambha Orientalia; 1987.
[23] Murthy KRS. Bhavaprakasa of bhavamisra. vol.
II. Madhya and
Uttara Khanda. Varanasi: Krishnadas Academy; 2001.
[24] Sonata S. The efficacy of Ayurveda drugs on
Cancer (Arbuda).
Workshop on cancer souvenir. Chennai: Central
Research Institute
for Siddha; 1986.
[25] Treadway S. An Ayurvedic herbal approach to a
healthy liver. Clin
Nutr Insights 1998;6:1–3.
[26] Trivedi N, Rawal UM. Effect of aqueous extract
of Andrographis
paniculata on liver tumour. Indian J Pharmacol
1998;30:318–22.
[27] Trivedi NP, Rawal UM. Hepatoprotective and
antioxidant property
of Andrographis paniculata in BHC induced liver
damage in mice.
Indian J Exp Biol 2001;39:41–6.
[28] Singh RP, Bannerjee S, Rao AR. Modulatory
influence of Andrographis paniculata on mouse hepatic and extrahepatic
carcinogen metabolising enzymes and antioxidant status. Phytother Res
2001;15:382–90.
[29] Kapil A. Antihepatoxic effects of major
diterpenoid constituents of
Andrographis paniculata. Biochem Pharmacol
1993;46:182–5.
[30] Chih H, Chiu HF, Tang KS, Chang FR, Wu YC.
Bullatacin, a potent
antitumour annonaceous acetogenin, inhibits
proliferation of human
hepatocarcinoma cell line 2.2.15 by apoptosis
induction. Life Sci
2001;69:1321–31.
[31] Chang FR, Wu YC. Novel cytotoxic annonaceous
acetogenins from
Annona muricata. J Nat Prod. 2001;64:925–31.
[32] Rajeshkumar NV, Kuttan R. Phyllanthus amarus
extract administration increases the life span of rats with hepatocellular
carcinoma.
J Ethnopharmacol 2000;73:215–9.
[33] Lee CD, Ott M, Thyagarajan SP, Shafritz DA,
Burk RD, Gupta
S. Phyllanthus amarus down-regulates hepatitis B
virus mRNA
transcription and replication. Eur J Clin Invest
1996;26:1069–76.
[34] Koul IB, Kapil A. Evaluation of the liver
protective potential of
piperine. Planta Med 1993;59:413–7.
[35] Cavalli F, Tschopp L, Gerber A, Sonntag RW,
Ryssel HJ, Brunner
KW. Therapiersultate mit VP 16.213 allein oder
kombiniert mit
5-fluorouracil beim leberzell karzinom (hepatoma),
Schweiz. Med
Wochenschr 1977;107:1960–6.
[36] Pallavacini EB, Porta C, Moroni M, Moroni M,
Bertulezzi G, Civelli
L, et al. Epirubicin and etoposide combination
chemotherapy to
treat hepatocellular carcinoma patients: a phase II
study. Eur J
Cancer 1997;33:1784–8.
[37] Nerenstone SR, Ihde DC, Friedman MA. Clinical
trials in primary
hepatocellular carcinoma: current status and future
directions. Cancer Treat Rev 1988;15:1–31.
[38] Park JG, Lee SH, Hong IG, Kim HS, Lim KH, Choe
KJ, et al.
MDR1 gene expression its effect on drug resistance
to doxorubicin
in human hepatocellular carcinoma cell lines. J Natl
Cancer Inst
1994;86:700–5.
[39] Aita P, Robieux I, Sorio R, Tumolo S, Corona G,
Cannizzaro R, et al.
Pharmacokinetics of oral etoposide in patients with
hepatocellular
carcinoma. Cancer Chemother Pharmacol
1999;43:287–94.
[40] Sohini YR, Bhatt RM. Activity of a crude
extract formulation in
experimental hepatic amoebiasis and in
immunomodulation studies.
J Ethnopharmacol 1996;54:119–24.
[41] Kapil A, Sharma S. Immunopotentiating compounds
from Tinospora
cordifolia. J Ethnopharmacol. 1997;58:89–95.
[42] Matthew S, Kuttan G. Immunomodulatory and
antitumour activities
of Tinospora cordifolia. Fitoterapia 1999;70:35–43.
[43] Sharma PV, Chaturvedi C, Bandhopadhyaya NG. A
study on dosage
and toxicity of Bhallataka (Semecarpus anacardium
Linn.). J Res
Indian Med 1966;I:130.
[44] Premalatha B. Semecarpus anacardium Linn.
nuts—a boon in alternative medicine. Indian J Exp Biol 2000;38:1177–82.
[45] Cassady JM, Chang CJ, McLaughlin JL. Recent
advances in the
isolation of structural elucidation of
antineoplastic agents of higher
plants. In: Beal JL, Reinhard E, editors. Natural
products as medicinal agents. Verlag: Hippokrates; 1981. p. 93–105.
[46] Chitinis MP, Bhatia KG, Phatak MK, Kesava Rao
KV. Antitumour
activity of the extract of Semecarpus anacardium L.
nuts in experimental tumour models. Indian J Exp Biol 1980;18:6–8.
[47] Premalatha B, Sachdanandam P. Immunomodulatory
activity of Semecarpus anacardium Linn. Nut milk extract in Aflatoxin B1 induced
hepatocellular carcinoma in rats. Pharm Pharmacol Commun
1998;4:507–10.
[48] Premalatha B, Muthulakshmi V, Sachdanandam P.
Anticancer potency of the milk extract of Semecarpus anacardium Linn. nuts
against aflatoxin B1 mediated hepatocellular
carcinoma bearing Wistar rats with reference to tumour marker enzymes.
Phytother Res
1999;13:183–7.
[49] Premalatha B, Sachdanandam P. Effect of
Semecarpus anacardium
nut milk extract on rat serum alpha-fetoprotein
level in aflatoxin B1
mediated hepatocellular carcinoma. Fitoterapia
1999;70:279–83.
[50] Premalatha B, Sachdanandam P. Stabilization of
lyzosomal membrane and cell membrane glycoprotein profile by Semecarpus
anacardium Linn. Nut milk extract in experimental hepatocellular carcinoma.
Phytother Res 2000;14:352–5.
[51] Premalatha B, Sachdanandam P. Regulation of
mineral status by
Semecarpus anacardium Linn. nut milk extract in
aflatoxin B1
induced hepatocellular carcinoma. J Clin Biochem
Nutr 1998;25:63–
70.
[52] Premalatha B, Sujatha V, Sachdanandam P.
Modulating effect of
Semecarpus anacardium Linn. nut extract on glucose
metabolising enzymes in aflatoxin B1 induced experimental hepatocellular
carcinoma. Pharmacol Res 1997;36:187–92.
[53] Premalatha B, Muthulakshmi V, Vijayalakshmi T,
Sachdanandam
P. Semecarpus anacardium nut extract induced changes
in enzymic
antioxidants studied in aflatoxin B1 caused
hepatocellular carcinoma
bearing Wistar rats. Int J Pharmacog 1997;35:1–6.
[54] Premalatha B, Sachdanandam P. Semecarpus
anacardium L nut extract administration induces the in vivo antioxidant defense
system
in aflatoxin B1 mediated hepatocellular carcinoma. J
Ethnopharmacol 1999;66:131–9.
[55] Premalatha B, Sachdanandam P. Potency of
Semecarpus anacardium
Linn. nut milk extract against aflatoxin B1 induced
hepatocarcinogenesis: reflection on microsomal biotransformation enzymes.
Pharmacol Res 2000;42:161–6.
[56] Premalatha B, Sachdanandam P. Modulating role
of Semecarpus
anacardium L. nut milk extract on aflatoxin B1
biotransformation.
Pharmacol Res 2000;41:19–24.
[57] Premalatha B, Sachdanandam P. Effect of
Semecarpus anacardium
nut extract against aflatoxin B1 induced
hepatocellular carcinoma.
Fitoterapia 1999;70:484–92.
[58] Vad BG. Study of complete regression in four
cases of cancer. The
Indian Practitioner 1973;26:253–63.
[59] Smit HF, Woerdenbag HJ, Singh RH, Meulenbeld
GJ, Labadie
RP, Zwaving JH. Ayurvedic herbal drugs with possible
cytostatic
activity. J Ethnopharmacol 1995;47:75–84.
[60] Nayak B. Pharmacological index-Ayurmedline.
Bangalore:
Seetharam Prasad; 2002. p. 447–682.
[61] Agarwal R, Diwanay S, Patki P, Patwardhan B.
Studies on immunomodulatory activity of Withania somnifera (Ashwagandha)
extracts in experimental immune inflammation. J
Ethnopharmacol
1999;67:27–35.
[62] Bakhru HK. Conquering cancer naturally. Delhi:
Chaukhamba Sanskrit Pratishthan; 2000. p. 1–6.
[63] OAM. Office of alternative medicine workshop on
the collection of
clinical research data relevant to alternative
medicine and cancer.
Bethesda: Office of Alternative Medicine; 1994.
[64] Boik J. Conducting research on natural agents.
In: Boik J, editor.
Cancer and natural medicine. Minnesota: Oregon
Medical Press;
1996: p. 176–87.
[65] Singhal GD, Singh LM. The management of
glandular swellings,
cervical lymphadenopathy, tumours and goiters. In:
Singhal GD,
Singh LM, editors. Operative considerations in
ancient Indian
surgery based on Susruta Samhita, Cikitsa sthana.
Varanasi: Singhal
Publications; 1982. p. 339–56.
[66] Jang M, Cai L, Udeani GO, Beecher CWW, Fong
HHS, Farnsworth
NR, et al. Cancer chemopreventive activity of
Resveratrol, a natural
product derived from Grapes. Science
1997;275:218–20.
[67] Subbareddy VV, Sirsi M. Effect of Abrus
precatorius Linn. on
experimental tumours. Cancer Res 1969;29:1447–51.
[68] Dhar ML, Dhar MM, Dhawan BN, Mehrotra BN, Ray
C. Screening
of Indian plants for biological activity, Part-I.
Indian J Exp Biol
1968;6:232–47.
[69] Hu X, Cao BN, Hu G, He J, Yang DQ, Wan YS.
Attenuation of
cell migration and induction of cell death by aged
garlic extract in
rat sarcoma cells. Int J Mol Med 2002;9:641–3.
[70] Corsi MM, Bertelli AA, Gaja G. The therapeutic
potential of Aloe
vera in tumour-bearing rats. Int J Tissue React
1998;20:115–8.
[71] Pecere T, Gazzola MV, Mucignat C, Parolin C,
Vecchia FD, Cavaggioni A, et al. Aloe-emodin is a new type of anticancer agent
with selective activity against neuroectodermal
tumours. Cancer Res
2000;60:2800–4.
[72] Jagetia GC, Baliga MS, Venkatesh P. Effect of
Sapthaparna (Alstonia scholaris Linn) in modulating the benzo(a)pyrene-induced
forestomach carcinogenesis in mice. Toxicol Lett
2003;144:183–93.
[73] Prasad GC, Deshpande PJ. Effect of Rohitaka
(Amura rohitaka) on
leukaemia. J Res Indian Med 1968;3:36.
[74] Rabi T, Gupta RC. Antitumour and cytotoxic
investigations of
Amura rohitaka. Int J Pharmacogn 1995;33:359–64.
[75] Bhakuni DS, Dhar ML, Dhar MM, Dhawan BN,
Mehrotra BN.
Screening of Indian plants of biological activity,
Part-II. Indian J
Exp Biol 1969;7:250–62.
[76] Anis KV, Rajeshkumar NV, Kuttan R. Inhibition
of chemical carcinogenesis by berberine in rats and mice. J Pharm Pharmacol
2001;53:763–8.
[77] Hostanska K, Daum G, Saller R. Cytostatic and
apoptosis-inducing
activity of boswellic acids toward malignant cell
lines in vitro.
Anticancer Res 2002;22:2853–62.
[78] Sriganth NPI, Premalatha B. Dietary curcumin
with cisplatin administration modulates tumour marker enzymes indicesin
experimental fibrosarcoma. Pharmacol Res 1999;39:175–
9.
[79] Aggarwal BB, Kumar A, Bharti AC. Anticancer
potential of curcumin: preclinical and clinical studies. Anticancer Res
2003;23:363–
98.
[80] Pal S, Chakraborti SK, Banerjee A, Mukerji B.
Search for anticancer
drugs from Indian medicinal plants. Indian J Med Res
1968;56:445–
55.
[81] Maiti B. Antineoplastic effects of the root
extract of Hygrophila
spinosa. In: Proceedings of the International
Conference on Current
Progress in Medicinal and Aromatic Plant Research.
Calcutta, India;
1994. p. 135–40.
[82] Mazumdar UK, Gupta M, Maiti S, Mukherjee D.
Antitumour activity of Hygrophila spinosa on Ehrlich ascites carcinoma and
sarcoma-180 induced mice. Indian J Exp Biol
1997;35:473–7.
[83] Dhawan BN, Dubey MP, Mehrotra BN, Rastogi RP,
Tandon JS.
Screening of Indian plants for biological activity,
Part-IX. Indian J
Exp Biol 1980;18:594–606.
[84] Bhakuni DS, Dhar ML, Dhar MM, Dhawan BN, Gupta
B, Srimal
RC. Screening of Indian plants of biological
activity, Part-III. Indian
J Exp Biol 1971;9:91–102.
[85] Bharali R, Tabassum J, Azad MR. Chemomodulatory
effect of
Moringa oleifera Lam., on hepatic carcinogen
metabolising enzymes, antioxidant parameters and skin papillomagenesis in mice.
Asian Pac J Cancer Prev 2003;4:131–9.
[86] Salim EI, Fukushima S. Chemopreventive
potential of volatile oil
from black cumin (Nigella sativa L.) seeds against
rat colon carcinogenesis) seeds against rat colon carcinogenesis. Nutr Cancer
2003;45:195–202.
[87] Dubey NK. Cytotoxicity of the essential oil of
Cymbogon citrus and Ocimum gratissimum. Indian J Pharm Sci. 1997;59:263–
9.
[88] Parimala R, Sachdanandam P. Effect of Plumbagin
on some glucose
metabolising enzymes studied in rats in experimental
hepatoma.
Mol Cell Biochem 1993;125:59–63.
[89] Itokawa H, Takeya K, Mori N, Hamanaka T, Sonobe
T, Mihara
K. Isolation and antitumour activity of cyclic
hexapeptides isolated
from Rubia radix. Chem Pharm Bull 1984;32:284–90.
[90] Mellado W, Magri NF, Kingston DG, Garcia-Arenas
R,
Orr GA, Horwitz SB. Preparation of biological
activity of
taxol acetates. Biochem Biophys Res Commun
1984;124:329–
36.
[91] Rastogi RP, Merhotra BN, editors. Compendium on
Indian medicinal plants. New Delhi: CSIR publications; 1993.
[92] Shirin H, Pinto JT, Kawabata Y, Soh JW,
Delohery T, Moss SF,
et al. Antiproliferative effects of
S-allylmercaptocysteine on colon
cancer cells when tested alone or in combination
with sulindac
sulfide. Cancer Res 2001;61:725–31.
[93] Olsen DL, Bradley C, Johnson M, Macias JL, Love
V, Markoe A.
The effect of Aloe vera gel/mild soap versus mild
soap alone in
preventing skin reactions in patients undergoing
radiation therapy.
Oncol Nurs Forum 2001;28:543–7.
[94] Lissoni P, Giani L, Zerbini S, Trabattoni P,
Rovelli F. Biotherapy with the pineal immunomodulating hormone melatonin versus
melatonin plus aloe vera in untreatable advanced
solid neoplasms.
Nat Immun 1998;16:27–33. [95] Jagetia GC, Baliga MS.
Treatment with Alstonia scholaris enhances
radiosensitivity in vitro and in vivo. Cancer
Biother Radiopharm
2003;18:917–29.
[96] Jagetia GC, Baliga MS. Modulation of
antineoplastic activity of
cyclophosphamide by Alstonia scholaris in the
Ehrlich ascites
carcinoma-bearing mice. J Exp Ther Oncol
2003;3:272–82.
[97] Baatout S, Derradji H, Jacquet P, Ooms D,
Michaux A, Mergeay M.
Effect of curcuma on radiation-induced apoptosis in
human cancer
cells. Int J Oncol 2004;24:321–9.
[98] Ohnuma T, Sridhar KS, Ratner LH, Holland JF.
Phase I study of
indicine N-oxide in patients with advanced cancer.
Cancer Treat
Rep 1982;66:1509–15.
[99] Rao AV, Devi PU, Kamath R. In vivo
radioprotective effect of
Moringa oleifera leaves. Indian J Exp Biol
39:858–63.
[100] Badary OA. Thymoquinone attenuates
ifosfamide-induced Fanconi
syndrome in rats and enhances its antitumour
activity in mice. J
Ethnopharmacol 1999;67:135–42.
[101] Vrinda B, Uma Devi P. Radiation protection of
human lymphocyte chromosomes in vitro by orientin and vicenin. Mutat Res
2001;498:39–46.
[102] Zaniboni A, Ardizzoni A, De Marinis F,
Portalone L, Boni C,
Meriggi F, et al. Phase II study of Taxol combined
with ifosfamide
and carboplatin in the treatment of stage IIIb-IV
non-small-cell
lung cancer. Am J Clin Oncol 2003;26:84–8.
[103] Lang I. Possibilities and results with
Herceptin-Taxol combination
in the treatment of breast cancer. Magy Onkol
2002;46:195–6.
[104] Rave-Frank M, Meden H, Jaschke A, Tanzer A, Boghun
O, Fietkau
R. The effect of paclitaxel on the radiosensitivity
of gynecological
tumour cells. Strahlenther Onkol 1997;173:281–6.
[105] Gupta YK, Sharma SS, Rai K, Katiyar CK.
Reversal of paclitaxel
induced neutropenia by Withania somnifera in mice. Indian
J Physiol
Pharmacol 2001;45:253–7.
[106] Devi PU. Withania somnifera Dunal
(Ashwagandha): potential plant
source of a promising drug for cancer chemotherapy
and radiosensitisation. Indian J Exp Biol 1996;34:927–32.
[107] Sharada AC, Solomon FE, Devi PU, Udupa N,
Srinivasan KK.
Antitumour and radiosensitising effects of
withaferin A on mouse
Ehrlich ascites carcinoma in vivo. Acta Oncol
1996;35:95–100.
[108] Praveenkumar V, Kuttan R, Kuttan G.
Chemoprotective action of Rasayanas against cyclophosphamide toxicity. Tumouri
1994;80:306–68.
[109] Davis L, Kuttan G. Suppressive effect of
cyclophosphamide-induced
toxicity by Withania somnifera extract in mice. J
Ethnopharmacol
1998;62:209–14.
[110] Williamson EM. Major herbs of Ayurveda.
London: Churchill Livingstone; 2002.
[111] Jellin JM, Gregory P, Batz F, Hitchens K.
Pharmacist’s
letter/prescriber’s letter natural medicines
comprehensive database.
3rd ed. Stockton, California: Therapeutic Research
Facility; 2000.
[112] Ross IA. Medicinal parts of the world. New
Jersey: Humana Press;
1999.
[113] Forget L, Goldrosen J, Hart JA, Hyun T,
Meachen D, Tyler T, et al.
Herbal companion. Bethesda: American Society of
Health System
Pharmacists; 2000.
[114] Kuhn MA. Winston D. Herbal therapy and
supplements. Philadelphia: Lippincott; 2000.
Almeilla ID, Freitas H. The exotic and invasive
flora of Portugal. Bot
Complutensis 2001: 25: 317 – 27.
Corlett RT. The naturalized flora of Singapore.
Journal of
Biogeography 1988: 15: 657 – 63.
Cowie R. Does the public care about species loss? A
glimpse into the
public’s thinking. Conservation Biology in Practice
2001: 2(3): 28 –
9.
Cox GW. Alien Species in North America and Hawaii:
Impacts on
Natural Ecosystems. Island Press, Washington, D.C.
1999.
Cox GW. Alien Species and Evolution: The
Evolutionary Ecology
of Exotic Plants, Animals, Microbes, and Interacting
Native Species.
Island Press, Washington, D.C. 2004.
Cracraft J, Francesca T. The Living Planet in
Crisis. Columbia
University Press, New York. 1999.
D'Antonio CM, Vitousek PM. Biological invasions by
exotic grasses:
the grass/fire cycle and global change. Annual
Review of Ecology
and Systematics 1992; 23: 63 – 87.
Drake JA, Mooney HA, di Castri F, Groves R, Kruger
F, Rejmanek
M, Williamson M. Biological Invasions: A Global
Perspective. John
Wiley and Sons, New York. 1989.
Elton CS. The Ecology of Invasions by Animals and
Plants.
University of Chicago Press, Chicago. 2000.
Enmoto T. Naturalized weeds from foreign countries
into Japan.
In: Yano, et al (eds). Biological invasions of
ecosystem by pests
and beneficial organisms. National Institute of
Agro-Environmental
Science, Tsukuba, Japan. 1999; 1 – 14.
Hajra PK, Das BK. Vegetation of Gangtok with special
reference to
exotic plants. Indian For 1982; 107: 554 – 66.
Hajra PK, Mudgal V. Plant diversity hotspots in
India – An overview.
BSI India 1997.
Heywood V. Patterns, Extents, and Modes of Invasions
by Terrestrial
Plants. In: Drake J,
et al (eds.), Biological Invasions: A Global
Perspective, Wiley, NY. 1989; 31 – 60.
Huxel GR. Rapid displacement of native species by
invasive species:
effects of hybridization. Biological Conservation
1999: 89:143 – 52.
Jenkins PT. Trade and exotic species introductions.
In: Sandlund OT,
Schei P. Invasive Species and Biodiversity
Management. Kluwer
Academic Publishers, The Netherlands. 1999; 24: 229
– 35.
Londsdale WM. Global patterns of plant invasions and
the concept of
invasibility. Ecology 1999; 80: 1522 – 36.
Maheswari JK, Paul SR. The exotic flora of Ranchi. J
Bombay Nat
Hist Soc 1975; 72(1): 158 – 88.
Matthew KM. Exotic flora of Kodaikanal and Palni
hills. Rec Bot
Surv India 1969; 20(1): 1 – 241.
McNeely JA, Mooney HA, Neville LE, Schei P, Waage JK. A Global
Strategy on Invasive Alien Species. IUCN Gland,
Switzerland, and
Cambridge, U.K., in collaboration with the Global
Invasive Species
Programme. 2001.
Meyer JY. Preliminary review of the invasive plants
in the Pacific
islands. In: Sherley G (ed.). Invasive Species in
the Pacific: A
Technical Review and Draft Regional Strategy. South
Pacific
Regional Environmental Programme, Samoa. 2000; 85 –
114.
Mooney HA, Drake JA. The ecology of biological
invasions.
Environment 1987; 29(5): 12.
Mooney HA. A global strategy for dealing with alien
invasive
species. Invasive species and Biodiversity
management (ed. Sandlund
OT, Schei PJ, Viken A). Kluwer Academic Publishers,
London. 1999;
24.
Mooney HA, Hobbs RJ. Invasive Species in a Changing
World.
Island Press, Washington, D.C. 2000.
Murthy EN, Raju VS, Reddy CS. Occurrence of exotic
Hyptis
suaveolens. Curr Sci 2007; 93(9): 1203.
Nayar MP. Changing patterns of the Indian Flora.
Bull Bot Surv India
1977; 19: 145 – 55.
Negi PS, Hajra PK. Alien flora of Doon valley,
Northwest Himalaya.
Curr Sci 2007; 92(7): 968 – 78.
Pandey RP, Parmar PJ. The exotic flora of Rajasthan.
J Econ Tax Bot
1994; 18(1): 105 – 21.
Pyšek P, Sádlo J, Mandák B. Catalogue of alien
plants of the Czech
Republic. Preslia 2002; 74: 97 – 186.
Randall JM, Marinelli J. Invasive Plants: Weeds of
the Global
Garden. Brooklyn Botanic Garden, Brooklyn, New York.
1997.
Reddy CS, Bhanja MR, Raju VS. Cassia uniflora
Miller: a new
record for Andhra
Pradesh, India. Indian J Forestry 2000; 23(3): 324
– 5.
Reddy CS, Raju VS. Additions to the weed flora of
Andhra Pradesh,
India. J Econ Taxon Bot 2002; 26: 195 – 8.
Reddy CS, Reddy KN. Cassia rotundifolia Pers.
(Caesalpiniaceae): a
new record for India. J Econ Tax Bot 2004; 28: 73 –
4.
Richardson DM, Bond WJ, Dean WRJ. et al. Invasive
alien species
and global change: a South African perspective. In:
Mooney HA,
Hobbs RJ (eds). Invasive Species in a Changing
World. Washington,
DC: Island. 2000; 303 – 49.
Saxena KG. Biological invasion in the Indian
sub-continent: review
of invasion by plants. In: Ecology of Biological
Invasion in the
Tropics 1991; 53 – 73.
Sharma BD. Exotic Flora of Allahabad, Botanical
Survey of India,
Dehra Dun. 1984.
Wu SH, Hsieh CF, Rejmánek M. Catalogue of the
naturalized flora of
Taiwan. Taiwania 2004; 49(1): 16 – 31.
1
Akhtar M. and Alam M.M., 1993. Utilization of waste
materials in nematode control: A review. Bioresource Technology,
45: 1-7.
Akhtar M. and Mahmood I., 1993. Effect of Mononchus
aquaticus and organic amendments on Meloidogyne
incognita development on chilli. Nematologia Mediterranea, 21:
251-252.
Akhtar M. and Malik A., 2000. Roles of organic
amendments
and soil organisms in the biological control of
plant-parasitic
nematodes: a review. Bioresource Technology, 74:
35-47.
Alam M.M., Ahmed M. and Khan A.M., 1980. Effect of
organic amendments on the growth and chemical composition of
tomato, eggplant and chilli and their susceptibility
to attack
by Meloidogyne incognita. Plant and Soil, 57:
231-236.
Amin A.W. and Youssef M.M.A., 1997. Efficiency of
certain
plant leaves for controlling Meloidogyne javanica
and Rotylenchulus reniformis infecting sunflower in Egypt. Journal
of Agronematology, 7: 198-200.
Chattopadhyay P.R., 1991. Nematicidal properties of
some
plant materials on tomato (Lycopersicon esculentum
cultivar local) infested with Meloidogyne incognita. Geobios
(Jodhpur), 18(5/6): 232-236.
Chitwood D.J., 2002. Phytochemical based strategies
for nematode control. Annual Review of Phytopathology, 40:
221-249.
Chitwood D.J., 2003. Research on plant-parasitic
nematode
biology conducted by the United States Department of
Agriculture-Agricultural Research Service. Pest
Management Science, 59 (6-7): 748-753.
Cohort Software Inc. 1985. Costat Users manual.
Version 3.
Cohort. Tucson, Arizona, USA.
D’
Addabbo T., 1995. The nematicidal effect of organic
amendments: a review of literature, 1982-1994.
Nematologia Mediterranea, 23: 299-305.
Goodey J.B., 1963. Laboratory methods for work with
plant
and soil nematodes. Ministry of Agriculture,
Fisheries and
Food, Technical Bulletin 2, HMSO, London, UK, 44 pp.
Hussey R.S. and Barker K.R., 1973. A comparison of
methods
of collecting inocula of Meloidogyne spp., including
a new
technique. Plant Disease Reporter, 57: 1025-1028.
Ibrahim I.K.A., Shahda W.T. and Dawood O.I., 1998.
Reaction of eggplant and pepper cultivars to Meloidogyne arenaria and its biological control on eggplant.
Alexandria
Journal of Agricultural Research, 43 (3): 151-157.
Muller R. and Gooch P.S., 1982. Organic amendments
in nematode control. An examination of the literature. Nematropica, 12:
319-326.
Nandal S.N. and Bhatti D.S., 1990. Efficacy,
persistence and
field application potential of some weeds/shrubs for
controlling Meloidogyne javanica on brinjal. Nematologia
Mediterranea, 18: 113-115.
Noling J.W. and Becker J.O., 1994. The challenge of
research
and extension to define and implement alternatives
to
methyl bromide. Journal of Nematology, 26: 573-586.
Reddy P.P., Khan R.M. and Rao M.S., 1993. Management
of
root-knot nematodes infesting papaya by
incorporation of
some plant leaves. Indian Society of Tobacco
Science, pp.
421-423.
Rodriguez-Kabana R., 1986. Organic and inorganic
amendments to soil as nematode suppressants. Journal of Nematology, 18:
129-135.
Whitehead A.G., 1998. Plant nematode control. CAB
International Wallingford, UK, 384 pp.
Zaki F.A. and Bhatti D.S., 1989. Effect of castor
(Ricinus communis) leaves in combination with different fertilizer doses
on Meloidogyne javanica infecting tomato. Indian
Journal
of Nematology, 19: 171-176.
ALESHIN, E. P., SHEUDZHEN, A. K. H. AND RYMAR, V.
T., 1989, Copper in mineral
nutrition of rice. Vestnik Selskokhozyaistvendi
Nauki, 7 : 107-111.
AMBERGER, A., 1974, Micronutrients, dynamics in the
soils and function in plant metabolism.
I. Iron. Proceedings of Egyptian Botany Society
Workshop, 1 : 18-90.
ANAND, N., 2003, Effect of micronutrients (Zn and
Fe) and time of nitrogen application on
growth, yield and quality of durum wheat (Triticum
durum Dest.). M. Sc. (Agri.)
Thesis, University of Agricultural Sciences,
Dharwad.
ANANDA, N. AND PATIL, B. N., 2005, Influence of
zinc, iron and time of nitrogen application
on growth, yield and quality of durum wheat.
Karnataka Journal of Agricultural
Sciences, 18(3) : 599-603.
ANIL KUMAR, K. C., 2000, Effect of pre-treated
copper ore tailings with SSP and organics on
cauliflower in Alfisols. M. Sc. (Agri.) Thesis,
University of Agricultural Sciences,
Dharwad.
ANONYMOUS, 2001,
Report on Area, Production and Prices of Agricultural Crops in
Karnataka, p. 17.
ANONYMOUS, 2005, The Hindu Survey of Indian
Agriculture, p. 77.
ANTIL, R. S., YADAV, D. S., VINODKUMAR AND SINGH,
M., 1988, Nitrogen copper
relationship in raya (Brassica juncea) Journal of
the Indian Society Soil Science ,
36 : 704-708.
ARORA, C. L. AND TAKKAR, P. N., 1981, Effect of
organic manures on the yield and nutrient
content of wheat. Journal of Research, 18 (3) :
257-265.
BALVAN, D. S. AND SINGH, R., 1997, Effect of
nitrogen and zinc on production of cauliflower
variety Snow ball-16. Haryana Agricultural
University Journal of Research, 24 :
88-92.
BANSAL, K. N. AND SINGH, H. G., 1975, Interaction
between sulphur and iron in the
prevention of iron chlorosis in cowpea. Soil
Science, 120 : 20-24.
BARANOWSKI, R., GONETOWA, I. AND PABIN, J., 1973,
Effect of application of mine
wastes on the physical properties of sandy soil.
Pamientnik Palawski, 57 : 141-
152.
BARNSHISEL, R. I. AND MASSEY, H. F., 1969, Chemical,
mineralogical and physical
properties of eastern Kentucky acid-forming coal
spoil materials. Soil Science,
108 : 367-372.
BARRAU, E. M. AND BERG, W. A., 1977, Pyrite and
pyretic mill tailing as a source of iron in
calcareous iron-deficient soil. Soil Science Society
of America Proceedings, 41 :
385-388.
BARUAH, K. K. AND BHARATNATH, 1996, Changes in
growth, iron uptake and metabolism
of rice (Oryza sativa L.) seedings at excess iron in growth
medium. Indian
Journal of Plant Physiology, 1(2) : 114-118.
BLACK, C. A., 1965,
Methods of Soil Analysis – Part II. Agronomy Monograph, American
Society of Agronomy, Madison, Wisconsin, USA.
BOSE, U. S. AND TRIPATHI, S. K., 1996, Effect of
micronutrients on growth, yield and quality
of tomato cv. Pusa Ruby in Madhya Pradesh. Crop
Research, 12(1) : 61-64.
BRAIN AND LORD, 1970, The stability of waste
embamnkments in mining. Mining
Management, 123 : 333-337.
BREMNER, J. M. AND DOUGLAS, L. A., 1971, Inhibition
of urease activity in soil. Soil
Biology and Biochemistry, 3 : 297-307.
BROWN, J. C. AND CLARK, R. B., 1977, Copper as
essential to wheat production. Plant and
Soil, 48 : 509-523.
BROWN, S., SPRENGER, M., MAXEMCHUK, A. AND COMPTON,
H., 2005, Ecosystem
function in alluvial tailings after biosolids and
lime addition. Journal of
Environmental Quality, 34 : 139-148.
CASIDA, L. E., KLEIN, D. A. AND SANTOTO, T.,
1964, Soil dehydrogenase activity. Soil
Science, 98 : 371-376.
CHANNAL, H. T. AND BALAKRISHNARAO, K., 1981, Effect
of sulphur and micronutrients
(Fe and Zn) on the yield of sunflower. Current
Research, 10(11/12) : 172-173.
CHENIAE, G. M. AND MARTIN, J. F., 1971, Sites of
function of Mn within photo system ii.
Roles in O2 evolution. Plant Physiology, 47 :
568-575.
CHRISTOPHER LOURNDURAJ, A., KRISHNAN, P. K. AND
GEETHALAKSHMI, V., 1997,
Micronutrient fertilization in groundnut. Madras Agricultural Journal, 84(7) : 362-
363.
CROWDER, A. A., MCLAUGHLIN, B. E., RUTHERFORD, G. K.
AND VANLOON, G. W.,
1982, Site factors affecting semi-natural herbaceous
vegetation on tailings of
copper cliff Ontario. Reclamation and Revegitation
Research, 1 : 77-193.
CRUDIGEINGTON, D. R., MARKLAND, J. AND VALENCE, J.,
1973, Journal of Assoc. Publ.
Analysts/Environmental Chemistry, etd., by J. O. M.,
Bockris, pp. 446-448
CULLEN, W. R., 1989, Arsenic speciation in the
environment. Chemical Review, 89 : 713-
786.
DAY, A. D. AND LUDEKE, K. L., 1973, Stabilizing
copper mine tailings disposal berms with
gaint bermuda grass. Journal of Environmental
Quality, 2(2) : 314-315.
DAY, A. D. AND LUDEKE, K. L., 1982, Stabilization of
copper mine wastes in a semi-arid
environment with perennial grasses. Journal of Arid
Environment, 5 : 285-290.
DAY, A. D., LUDEKE, K. L., AMANGO, G. P. AND TUCKER,
T. C., 1967, Copper mine
wastes : good potential as medium for growing
livestock forage. Engineering
and Mining Journal, 177 : 90-92.
DEVARAJAN, R., RAMANATHAN, G., SHANMUGAM, K. AND
RAVIKUMAR, V., 1980, Note
on effect of organic manures on uptake of
micronutrients by sorghum. The
Madras Agricultural Journal, 67 : 128-130.
DEWAL, G. S. AND PAREEK, R. G., 2004, Effect of
phosphorus, sulphur and zinc on growth,
yield and nutrient uptake of wheat (Triticum aestivum). Indian Journal of
Agronomy, 49(3) : 160-162.
DHILLON, G. S., KANWAR, R. S. AND GUPTA, V. K.,
1971, Micronutrients studies on semidwarf wheet. Indian journal of Agronomy, 16
: 268-270.
DONGRE, S. M., MAHORKAR, V. K., JOSHI, P. S. AND
DEO, D. D., 2000, Effect of
micronutrient spray on the fruit set, fruit drop and
fruit retention of chilli cv.
Jayanti. Journal of Soils and Crops, 10(1) :
156-157.
DUBE, P. K., SHARMA, C. P. AND CHATTERJEE, C., 2001,
Response of pigeonpea to
applied zinc in Ustifluvent soils of western Uttar
Pradesh. Journal of the Indian
Society of Soil Science, 49(3) : 471-475.
DWIVEDI, K. N. AND HARIKRISHNA KUMAR, 1977,
Correlation of soil tests with response of
wheat to applied copper. Journal of the Indian
Society of Soil Science, 25(4) :
410-413.
EVASI, F. AND TABATABAI, M. A., 1979, Phosphatase in
soil. Soil Biology and Biochemistry,
9 : 167-172.
EYINI, M., JAYAKUMAR, M. AND PANNIRESELVAM, S.,
1993, Distillery effluent induced
changes in epicuticular wax deposits of eichenornia
crassipex. Indian Journal of
Ecology, 20(1) : 1-4.
FISHER, R. A. AND YATES, F., 1963, Statistical Tables for Biological,
Agricultural and
Medical Research, Oliver and Boud Limited, London,
pp. 74-75.
FORTINI, S. AND MORANI, V., 1960, Phosphorus zinc
antagonism of excessive rates of
phosphate fertilization and the probable interaction
of sodium. Agrochemica, 4 :
209-215.
FULLER, W. H., 1984, Cyanide in the environment with
particular attention to soil. In : D. Van
Zyl (Ed.)
Cyanide and the Environment Vol. I, Geochemical Engineering
Programe, Colorado State University and Ft. Collins,
10, pp. 19-46.
GAVIS, J., 1972, A review of arsenic cycle in
natural waters. Water Resources, 6 : 1259-
1279.
GHOSE, M. K., 2001, Changes in microbial numbers in
soil dumps of coal mining areas.
Indian Journal of Soil Conservation, 29(1) : 53-58.
GHOSE, M. K. AND KUNDU, N. K., 1998, Impact on soil
quality due to underground coal
mining cultivities in South Bihar. Indian Journal of
Soil Conservation, 26(3) : 247-
251.
GOYAL, S., CHANDER, K. AND KAPOOR, K. K., 1995,
Effect of distillery wastewater
application on soil microbial propeties and plant
growth. Environment and
Ecoology, 13(1) : 89-93.
GREENWOOD, E. A. N. AND HALLSWORTH, E. G., 1960,
Studies on the nutrition of
legumes, II and some interaction of calcium,
Phosphorus, copper and
molybdenum on the growth and chemical composition of
Trifolium subterraneum
(L.). Plant and Soil, 12 : 97-127.
GRIGORYAN, B. R., YULMETER, R. M. AND ASAFORA, E.
V., 1990, Efficiency of coppercontaining compounds applied to barley.
Agrokhimiya, 1 : 88-91.
GUNDLUR, S. S., 1997, Studies on copper in red and
lateritic soils and effect of copper ore
waste and copper sulphate on groundnut (Arachis
hypogaea L.) in red soils of
North Karnataka. Ph. D. Thesis, University of
Agricultural Sciences, Dharwad.
GUPTA, V. K. AND POTALIA, B. S., 1983, Response of
manganese to wheat in sierozem
soils. Agricultural Science Digest, 3(3/4) : 193-194.
HALLSWORTH, E. G., WILSON, S. B. AND GREENWOOD,
E. A. N., 1960, Copper and
Cobalt in nitrogen fixation. Nature, 187 : 79-80.
HATWAR, G. P., GONDANE, S. U., URKUDE, S. M. AND
GAHAKAR, O. V., 2003, Effect of
micronutrients on growth and yield of chilli.
Journal of Soils and Crops, 13(1) :
123-125.
HEMANTARAJAN, A. AND GARG, O. K., 1988, Effect of
zinc fertilization on the senescence
of wheat varieties. Indian Journal of Plant
Physiology, 27 (3) : 239-246.
HILL, J., ROBSON, A. D. AND LONERAGAN, J. F., 1979,
The effect of copper supply on the
senescence and the reaccumulation of nutrients of
the oldest leaf of wheat.
Annals of Botany, 44 : 279-289.
HUGHES, M. K., 1980, Areal heavy metal pollution and
terestrial ecosystem. In : A
Macfadyen (ed.) Mcadenic Press, London, 11 :
217-327.
HUSAIN, S. A., SHAIK MOHAMMAD AND RAO, B. V. R.,
1989, Response of chilli (Capsicum
annum) to micronutrients. Indian Journal of
Agronomy, 34(1) : 117-118.
JACKSON, M. L., 1967, Soil Chemical Analysis,
Prentice Hall of India Private Limited, New
Delhi, p. 205.
JACKSON, M. L., 1973, Soil Chemical analysis,
Prentice Hall of India Private Limited, New
Delhi, p. 187.
JACOBSON, L. AND OERTIL, J. J., 1956, The relation
between iron and chlorophyll contents
in chlorotic sunflower leaves. Plant Physiology, 31
: 199-204.
JEFFERY, J., MARSHMAN, N. AND SALOMONS, W., 1988,
Behaviour of trace metals in a
tropical river system affected by mining. In : Chemistry and Biology of Solid
Wastes Dredged Material and Mine Tailings, Berlin
German Federal Republic
Springer-Verlag GmbH and Company, pp. 259-274.
JOPONY, M., USUP, G. AND MOHAMMED, M., 1976,
Particle size distribution of copper
mine tailings from lohan Ranau Sabah and its
relationship with heavy metal
content. Pertanika, 10 : 37-40.
JORMA, E. AND ERKAMA, 1950, Effect of copper and
manganese on the iron status of
higher plants. In :
Trace Elements in Plant Physiology with A Report of the
Proceeding, by Wallase, T. and Sirks, M. J., pp.
53-62.
JYUNG, W. H., EHMANN, A., SCHLENDER, K. K. AND
SCALA, J., 1975, Zinc nutrition and
starch metabolism in Phaseolus vulgaris L. Plant
Physiology, 55 : 414-420.
KAMAL, M. A. M., KHALED, G. M. AND ESKAROS, M. A.,
1974, Effect of different fertilizers
on the transformation of carbohydrates in potato
plants. Agricultural Research
Review, 52 : 101-109.
KATAWATIN, R., RAYSONERGAN, S., KEERRATI-KASIKORAN,
P., BELL, R. W.,
PLASKETH, D. AND LONERGAN, J. F., 1989, Effect of P
and Cu application on
Cu uptake by peanut. Kaen Kaset Khon Kain
Agriculture Journal, 17(6) : 373-
350.
KAUL, H.N. AND MEHTA, A., 1999, Storage of potatoes
in India. Technical Bulletin No. 47,
Central Potato Research Institute, Shimla.
KRUSE, J. M. AND MELLON, M. G., 1951, Colorimetric
determination of cyanides. Sweage
Industry Wastes, 23 : 1402.
KUNDU, N. K. AND GHOSE, M. K., 1997, Microbiological
studies in coal mining areas. Indian
Journal of Soil Conservation, 25(2) : 110-113.
KUSTERS, P. AND WILLIAMS, S. T., 1964, Selection of
media for isolation of streptomyces.
Nature, 202 : 926-929.
LATHA, M. R., SAVITHRI, P., INDIRANI, R. AND
KAMARAJ, S., 2001, Influence of zinc
enriched organic manures on the availability of
micronutrients in soil. Madras
Agricultural Journal, 83(3) : 165-167.
LEGHA, P. K. AND GIRI, G., 1999, Influence of
nitrogen and sulphur on growth, yield and oil
content of sunflower (Helianthus annuus) grown in
spring season. Indian Journal
of Agronmy, 44(2) :
408-412.
LIM, D. K., SEONG, K. S. AND SHIN, J. S., 1983,
Development of micronutrient fertilizer, its
effect on Chinese cabbage. Journal of Korean Society of Soil Science and
Fertilizer, 14
: 236-241.
LINDSAY, W. L. AND NORVELL, W. A., 1978, Development
of DTPA-soil test for Zn, Fe, Mn
and Cu. Soil Science Society of America Proceedings,
42 : 421-428.
LUDEKE, K. L., 1973, Soil properties of materials in
copper mine tailings dikes. Min. Conger
Journal, 59 : 30-37.
MACHADO, A. I., ARZOLA, P. A. AND VEGA, H. F., 1994,
Effect of application of effluent
from the ‘Meliano Hernadez’ distillery on a brown
non-calcareous soil. Centro
Azucar, 21(1) : 30-39.
MANN, M. S., TAKKAR, P. N., BANSAL, R. L. AND
RANDHAWA, N. S., 1978, Micronutrient
status of soil and yield of maize and wheat as influenced
by micronutrient and
farmyard manure application. Journal of the Indian
Society of Soil Science, 26 (2) :
208-214.
MANOJ, K., SHARMA, J. R. AND MEHRA, R. K., 2004,
Critical limit of iron deficiency for
predicting response of maize grown on Ustochrepts of
Rajasthan. Journal of Soils
and Crops, 14(2) : 437-441.
MANONMANI, K., CHITRARAJA, G. AND SWAMINATHAN, K.,
1990, Effect of alcohol and
chemical industry effluents on physiological and
biological properties of soil.
Pollution Research, 9 : 79-82.
MARTIN, J. P., 1950, Use of acid, rose bengal agar
and streptomycin in the plate method for
estimating soil fungi. Soil Science, 64 : 215.
MATHERS, A. C., 1970, Effect of ferrous sulphate and
sulphuric acid on grain sorghum yield.
Agronomy Journal, 62 : 555-556.
MATOCHA, J. E. AND THOMAS, G. N., 1969, Potassium
and organic nitrogen content of
grain sorghum as effected by iron. Agronomy Journal,
61 : 425-428.
McGEORGE, W. T. AND BREAZEALE, E. L., 1955, The
value of pyrite and pyrotite as soil
conditioners. University of Agriculture Experiment
Station Report, 124 : 1-18.
MEEUSSEN, J. C. L., KEIZER, M. G., WILLEM, H. AND de
HAAN, F. A. M., 1994, Solubility
of cyanide in contaminated soils. Journal of
Environmental Quality, 23 : 785-792.
MENCH, M., BUSSIENE, S., BOISSON, J. AND
CASTAING, E., 2003, Progress in
remediation and revegetation of the barren jales
gold mine spoil after in situ
treatments. Plant and Soil, 249 : 187-202.
MISHRA, N. M., RAMKRISHNA REDDY, M. G. AND
SUBRAMANIAM, M. V. K., 1985, Effect
of micronutrients on sunflower. The Andhra
Agricultural Journal, 32(2) : 149-159.
NATARAJA, T. H., HALEPYATI, A. S., DESAI, B. K. AND
PUJARI, B. T., 2005, Interactive
effect of phosphorus, zinc and iron on the
productivity and nutrient uptake by
wheat (Triticum durum Desf.). Karnataka Journal of
Agricultural Sciences, 18(4)
: 907-910.
NEEL, C., BRIL, H., NOMADE, A. C. AND DUTREWIL, J.
P., 2003, Factors affecting natural
development of soil on 35 year old sulphide – rich
mine tailings. Geoderma, 111
: 1-20.
NEISH, A. C., 1939, Studies on chloroplasts.
Biochemistry Journal, 33 : 300-308.
NELSON, N., 1944, Journal of Biological Chemistry,
153 : 375-380.
OHKI, K., 1976, Effect of zinc nutrition on
photosynthesis and carbonic anhydrase activity in
cotton. Plant Physiology, 38 : 300-304.
PALIWAL, M. C., DEOTALE, R. D., HATMODE, C. N.,
CHORE, C. N. AND MUNDADA, A. D.,
2004, Effect of deficiencies of various mineral
element on chemical, biochemical and yield and yield contributing characters of
soybean. Journal of Soils
and Crops, 14(1) : 26-30.
PANCHOLY, S. K. AND RICE, E. L., 1973, Soil enzymes
in relation to old field succession :
Amylase, invertase, cellulose, dehydrogenase and
urease. Soil Science Society
of America Proceedings, 37 : 47-50.
PANDEY, N. AND SHARMA, C. P., 2002, Metabolic
changes in cotton plants subjected to
copper deficiency and recovery. Indian Journal of
Plant Physiology, 7(1) : 31-34.
PARKER, G. R., McFEE AND KELLY, J. M., 1978, Metal
distribution in forest ecosystem in
urban and rural areas. Plant and Soil, 44 :
4-5.
PASRICHA, N. S. AND RANDHAWA, N. S., 1971,
Proceedings of Symposium Soil Fertility
Evaluation, New Delhi, 1 : 1017-1025. As quoted in
Micro-Nutrient Research in
Soil and Plants in India. A review by Kanwar, J. S.
and Randhawa, N. S., 1974,
ICAR, New Delhi.
PATIL, K. B., 2004, Effect of micronutrients on
growth and yield of okra. Journal of Soils and
Crops, 14(1) : 211-212.
PIPER, C. S., 1966, Soil and Plant Analysis, Hans
Publications, Bombay, India.
POWELL AND GAINS, J., 1973, Automated determination
of reducing sugars, total sugars ad
starch in plant tissue from the one weighed sample.
J.A.O.A.C., 56 : 1419-1424.
PRASAD, J. AND RAM, H., 1991, Uptake of native
calcium in green gram (Vigna radiata (L.)
Wilczek) as influenced by zinc, copper and rhizobium
inoculation. Legume
Research, 11 : .66-70.
PRICE, C. A., CLARK, H. E. AND FUNKHOUSER, H. E.,
1972, Function of micro-nutrients in
plants. In :
Micro-nutrients in Agriculture.
American Society of Soil Science,
Madison, Wisconsin, pp. 731-742.
PUSTE, A. M. AND JANA, P. K., 1995, Effect of
phosphorus and zinc on the yield attributes
and yield of pigeonpea varieties grown during winter
season. Madras
Agricultural Journal, 82(5) 348-351.
RAGHUWANSHI, R. K. S., SINHA, A. K. AND AGARWAL, S.
K., 1997, Effect of sulphur and
zinc in soybean (Glycine max) wheat (Triticum
aestivum) cropping sequence.
Indian Journal of Agronomy, 42 : 29-32.
RAJKUMAR, K. V. S. AND VEERARAGHAVAIAH, R., 2002,
Maize yield and nutrient uptake
as affected by S, Zn and B nutrition with and
without FYM application. The
Andhra Agricultural Journal, 49(1&2) : 36-40.
RAMESH, P. R., KOTUR, S. C. AND SUDHIR, K., 2003,
Relationship of activities of urease
and dehydrogenase with physico-chemical
properties of some coffee-growing
soils of Karnataka. Journal of the Indian Society of
Soil Science, 51(1) : 78-80.
RANGANNA, S., 1977,
Manual of Analysis of Fruit and Vegetable, Tata McGraw Hill
Publishing Company Limited, New Delhi.
RASTOVSKI, A., 1981, Storage losses. In : Storage of Potatoes, Post-harvest behaviour,
Storage Design, Storage Practice and Handling (Edn.
Rastovski et al.), Centre
for Agricultural Publishing and Documentation,
Wageningen, pp. 169-172.
RATHORE, V. S., KANDLA, J. C. AND SHARMA, D., 1974,
Symposium on Use of Radiation
and Radio Isotopes in the Studies of Plant
productivity, held at Panthnagar, pp.
82-83.
RAYAN, J. AND STROCHLEIN, J. L., 1976, Copper
industrial by products for improving Fe
deficient calcareous soils. Agronomy Journal, 68 :
79-82.
RENNERT, T. AND MANSFELDT, T., 2002a, Sorption
and transport of iron-cyanide
complexes in uncontaminated soil investigated in
column experiments. Soil
Science, 167(8): 504-512.
RENNERT, T. AND MANSFELDT, T., 2002b, Sorption of
iron-cyanide complexes in soils. Soil
Science Society of American Journal, 66 : 437-444.
ROBERT, K. N., PELEGER, F. L., NORLAND, M. R. AND
DEBORAH, L. H., 1997, Native
plant productivity and litter decomposition in
reclamation of taconite iron ore
tailings. Journal of Environmental Quality, 26 :
682-687.
ROCHEV, V. A. AND SEREBRENNIKOVA, M. T., 1964,
Utilization of industrial waste
products as copper fertilizers. Agrotekh Agropochv,
42 : 199-211.
ROMHELD, V. AND MARSCHNER, H., 1981, Iron deficiency
stress induced morphological
changes and physiological changes in the root
tips of sunflower (Helianthus
annuus Cv. Sobrid). Plant Physiology, 53 : 354-360.
ROY, C. S., JEANNE, C. C. AND MICHAEL, C. A., 1991,
Fate of heavy metals in an
abondoned lead-zinc tailings pond : II.
sediment. Journal of Environmental
Quality, 20 : 752-758.
RUTHERFORD, G. K., DIMMA, D., VANTOON, G. W. AND BREEK,
W. G., 1982, The
pedological properties of tailings derived from
three mining operations in the
Sudbury area, Ontario. Canadian Journal of Environmental
Quality, 11 : 511-
518.
SAINI, S. P. AND GUPTA, V. K., 2001, Lead and FYM
influence on yield and Pb
concentration of wheat grown on sandy and clay loam
soils. Journal of the
Indian Society of Soil Science, 49(3) : 508-510.
SAKAL, R., SINHA, H., SINGH, A. P. AND THAKUR, K.
U., 1981, Response of wheat to zinc,
copper and manganese in calcareous soil. Journal of the Indian Society of Soil
Science, 29 : 385-397.
SAMBOORNARAMAN, S., NAIK, M. S. AND DAS, N. B.,
1968, Response of wheat to
different sources and levels of zinc. Indian Journal of Agricultural Sciences, 38 :
347-359.
SAMUI, R. C., BHATTACHARYYA, P. AND DASGUPTA, K.,
1981, Uptake of nutrients by
mustard (Brassica junceae) as influenced by Zn and
Fe application. Journal of
the Indian Society of Soil Science, 29 : 101-106.
SANCHEZ-RAYA, A. J., IEAL, A., GOMEZ-ORTEGA, M. AND
RECALDE, L., 1974, Effect of
iron on the absorption and translocation of
manganese. Plant and Soil, 41 : 429-
434.
SARASWAT, P. K., TIWARI, R. C., AGARWAL, H. P.
AND SANJAY KUMAR, 2005,
Micronutrient status of soils and vegetable crops
irrigated with treated sewage
water. Journal of the Indian Society of Soil
Science, 53(1) : 111-115.
SARKAR, R. K., CHAKRABORTY, A. AND BALA, B.,
1998, Analysis of growth and
productivity of groundnut in relation to
micronutrient application. Indian Journal of
Plant Physiology, 3(3) : 234-236.
SCHWABE, G. H., 1953, Assays on fertilization
with minor elements. Botanical Society of
Biology Conception, 28 : 141-154.
SCOKART AND KMEEUS – WERDINNE, 1980, Mobility of
lead, cadmium and zinc in soil.
Journal of Environmental Health, 22 : 124-129.
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