[ADAMS, M. W. (1967): Basis of yield component compensation in crop plants with special reference to the field bean, Phaseolus vulgaris. Crop Science 7: 505-510.10.2135/cropsci1967.0011183X000700050030x]Open DOISearch in Google Scholar
[ALIYU, O. M. (2004): Characterization and compatibility studies in cashew (Anacardium occidentale L.). Ph. D. Thesis, University of Ilorin, Ilorin, Nigeria.]Search in Google Scholar
[BEHRENS, R. (1998): About the spacing of cashew nut trees. Proceeding of the International Cashew and]Search in Google Scholar
[Coconut Conference, 17-21 February 1997, Dar es Salaam, Tanzania. BioHybrids International Ltd., Reading, UK, pp. 48-52.]Search in Google Scholar
[DRAPER, N. R. and H. SMITH (1967): Applied regression analysis. John Wiley and Sons Inc., New York.]Search in Google Scholar
[ESAN, E. B. and S. S. OMOLAJA (2002): Genotypic association, path analysis and pluck quality value in tea (Camellia sinensis (L.) O. Kuntze). Tropical Agriculture, 79: 100-104. ]Search in Google Scholar
[FALCONER, D. S. (1972): Introduction to quantitative genetics. Robert MacLehose and Co. Limited, Glasgow, UK.]Search in Google Scholar
[FREITAS, B. M. and R. J. PAXTON (1996): The role of wind and insects in cashew (Anacardium occidentale L.) pollination in North Eastern Brazil. Journal of Agricultural. Science 126: 319-326.]Search in Google Scholar
[GARCIA, J. R. and G. NICOLLELA (1985): Correlacao entre algumas medidas dendrometricas, origins geneticase producao de frutos em cacueiros. Revista Theobroma 15: 113-124 (in Portuguese).]Search in Google Scholar
[GLENDINNING, D. R. (1966): Further studies on the relationships between growth and yield in cocoa varieties. Plant Breeding Abstract 36: 591.]Search in Google Scholar
[GRAFIUS, J. E. (1960): Does overdominance exist for yield in corn? Agronomy Journal 52: 361. 10.2134/agronj1960.00021962005200060020x]Open DOISearch in Google Scholar
[HAZEL, L. N. (1943): The genetic basis for constructing selection indexes. Genetics 28: 476-490.10.1093/genetics/28.6.476120922517247099]Search in Google Scholar
[HAZEL, L. N. and J. L. LUSH (1942): The efficiency of three methods of selection. Journal of Heredity 33: 393-399.10.1093/oxfordjournals.jhered.a105102]Open DOISearch in Google Scholar
[IBPGR (1986): Descriptors for cashew (Anacardium occidentale L.). International Board for Plant Genetic Resources, Rome, Italy.]Search in Google Scholar
[ISHAQ, M. N., C. A. ECHEKWU, P. E. OLORUNJ, U. S. GUPTA and S. M. MISARI (2000): Correlations and path coefficient analysis in sugarcane (Saccharum officinarium L.). Nigerian Journal of Genetics 15: 22-28.]Search in Google Scholar
[JACKSON R. E. (1967): The study of variation from year to year. Experimental Agriculture 3: 175-182.10.1017/S0014479700022018]Open DOISearch in Google Scholar
[KIM, J. O. and F. J. KOHOUT (1975): Analysis of variance and covariance. pp. 383-397 in SPSS: Statistical Package for the Social Sciences, 2nd Ed., edited by N. H. NIE et al., McGraw-Hill Book Co., New York.]Search in Google Scholar
[LI, C. C. (1981): Path analysis - a primer. The Boxwood Press, Pacific Groove, CA, USA.]Search in Google Scholar
[MARIOTTI, J. A. (1985): Fundamentos de Genetica Biometrica-Applicaciones al Mejoramento Genetico Vegetal. Organizacion de los Estados Americanos, Washington, DC.]Search in Google Scholar
[MARTIN, P. J. and L. J. KASUGA (1995): Variation in cashew tree yield in South-east Tanzania and the implication for management of cashew smallholding. Tropical Agriculture 72: 261-268.]Search in Google Scholar
[MARTIN, P. J., L. J. KASUGA and R. A. BASHIRU (1998): Cashew farming upgrading: agronomic options for cashew production by smallholder farmers in Tanzania. Experimental Agriculture 34: 137-152.10.1017/S0014479798002014]Open DOISearch in Google Scholar
[MASAWE, P. A. L. (1994): Aspect of breeding and selecting improved cashew genotypes (Anacardium occidentale L.). Ph. D. Thesis, University of Reading, UK.]Search in Google Scholar
[MASAWE, P. A. L., E. P. CUNDALL and P. D. S. CALIGARI (1998): Performance in South-eastern Tanzania of local cashew germplasm and selected clones. Proceeding of International Cashew and Coconut Conference, 17-21 February 1997, Dar es Salaam, Tanzania. BioHybrids International Ltd., Reading, UK, pp. 146-150. ]Search in Google Scholar
[MCNEAL, F. H., E. P. SMITH and M. A. BERG (1974): Plant height, grain yield, and yield component relationships in spring wheat. Agro. Jour. 66: 575-578.]Search in Google Scholar
[MITCHELL, J. D. and S. A. MORI (1987): The cashew and its relatives (Anacardium, Anacardiaceae). Memoirs of the New York Botanical Gardens English 42: 1-76.]Search in Google Scholar
[MURTHY, K. N., K. K. VIJAYA, R. S. N. PILLAI and P. M. KUMARAN (1984): Flowering behaviour and correlationstudies in cashew. In: Abstract of Proceedings of the International Cashew Symposium, Cochin, Kerala, India. 12-15 March 1979.]Search in Google Scholar
[NAKASONE, H. Y. and R. E. PAULL (1998): Tropical Fruits. CAB International, Oxford, UK.]Search in Google Scholar
[NAMBIAR, M. C. (1977): Cashew. pp. 461-477 in Ecophysiology of Tropical Crops, edited by P. D. T. ALVINS and T. T. KOZLOWSKI. Academics Press, New York, U.S.A.10.1016/B978-0-12-055650-2.50022-8]Search in Google Scholar
[NORTHWOOD, P. J. (1966): Some observations of flowering and fruit-setting in cashew (Anacardium occidentale L.). Tropical Agriculture 43: 35-24.]Search in Google Scholar
[OHLER, J. G. (1979): Cashew. Koninklijk Instituut voor de Tropen Teskin, Zutphen Co., Amsterdam, The Netherlands, 260p.]Search in Google Scholar
[PEDROZA DE AZEVEDO, D. M. P., J. R. CRISOSTOMO, F. C. G. ALMEIDA and A. G. ROSSETTI (1998): Estimates of genetic correlations and correlated responses to selection in cashew (Anacardium occidentale L.). Genetics and Molecular Biology, Volume 21(3). [online]. Available online: http://www.scielo.br/scielo.php?script=sci_arttext&pid=S1415-47571998000300019&lng=en&nrm=iso>. ISSN1415-4757.10.1590/S1415-47571998000300019]Search in Google Scholar
[RAO, V. N. M. (1974): Crop Improvement of Cashew. Report All India Summer Institute on Improvement and Management of Plantation Crops, Mimeographed, 128-134.]Search in Google Scholar
[SALLEH, H., T. B. CHAI and M. L. BAKRI (1989a): Seasonal variation in yield performance of 16 cashew clones on bris soil. MARDI Research Journal 17: 167-171. ]Search in Google Scholar
[SALLEH, H., T. B. CHAI, N. A. WAHAB, M. L. BAKRI and T. A. ABIDAH (1989b): Identification of promising materials from a seedling population of cashew based on nut number and nut weight. MARDI Research Journal 17: 155-166.]Search in Google Scholar
[SENA, D. K., P. C. LENKA, P. N. JAGADEV and B. SASHIKALA (1994): Genetic variability and character association in cashew (Anacardium occidentale L.). Indian Journal of Genetics and Plant Breeding 54: 304-309.]Search in Google Scholar
[SHOMARI, S. A. and C. P. TOPPER (2003): The importance of cashew in Tanzania and the role of supporting organizations. pp. 43-60. In: Knowledge Transfer for Sustainable Tree Crop Development, edited by C. P. TOPPER and]Search in Google Scholar
[L. J. KASUGA. BioHybrids Agrisystems Ltd, Reading, UK. SINGH, R. K. and B. D. CHAUDHARY (1985): Biometrical ethods in quantitative genetic analysis. Kalyani Publisher, New Delhi, India.]Search in Google Scholar
[SINGH DHALIWAL, T. (1968): Correlation between yield and morphological characters in Puerto Rican and Cohmnaris varieties of Coffea arabica L. Journal of. Agriculture of the University of Puerto Rico 52: 29-37.10.46429/jaupr.v52i1.11720]Search in Google Scholar
[WOODROOF, J. G. (1967): Tree nuts Production, Processing, and Products, Vol. I. AVI Publishing Company and Incorporation, Westport CT. U.S.A.]Search in Google Scholar
[WRIGHT, S. (1921): Correlation and causation. Journal of Agricultural Research 20: 557-587. ]Search in Google Scholar
[WRIGHT, S. (1923): Theory of path coefficients. Genetics 8: 239-255.10.1093/genetics/8.3.239120074717246011]Search in Google Scholar