Biology Reference
In-Depth Information
unveils apparent resistance to hornworm (
E. ello
)inthe
non-transgenic, African cassava clone 60444. In
Adding
value to a small-farmer crop
, edited by A. Alves and J.
Tohme, Proceedings of the Sixth International Scientific
Meeting of the Cassava Biotechnology Network. 8-14
March 2004, CIAT, Cali, Colombia. Book of Abstracts,
p.4.
Chellappan, P., Vanitharani, R., and Fauquet, C.M. 2004.
Short interfering RNA accumulation correlates with host
recovery in DNA virus-infected hosts and gene silenc-
ing targets specific viral sequences.
Journal of Virology
78:7465-7477.
CIAT. 2003. Annual Report IP3.
Improved cassava for the
developing world
, CIAT, Cali, Colombia.
CIAT. 2004. Annual Report IP3.
Improved cassava for the
developing world
CIAT, Cali, Colombia.
CIAT. 2006. Annual Report IP3.
Improved cassava for the
developing world
, CIAT, Cali, Colombia.
Cours-Darne, G. 1968. Improving cassava in Africa.
The
Abidjan Conference. Agricultural research and provi-
sions for economical development in Africa
2:330-339.
Cours, G. 1951.
Le manioc a Madagascar
.In
Memoires de
l'Institut Scientifique de Madagascar
. pp. 203-400.
De Vries, J., and Toenniessen, G. 2001.
Securing the har-
vest: biotechnology, breeding and seed system for African
crops
. Chapter 13: Cassava. CABI Publishing, Oxon, UK
and New York, pp. 147-156.
Dellarpota, S.L., Wood, J., and Hicks, J.R. 1983. A plant
DNA minipreparation: version II.
Plant Molecular Biol-
ogy
1:19-21.
Deng, D., Otim-Nape, W.G., Sangare, A., Ogwal, S.,
Beachy, R.N., and Fauquet, C.M. 1997. Presence of a
new virus closely related to East African cassava mosaic
geminivirus, associated with cassava mosaic outbreak in
Uganda.
African Journal of Root and Tuber Crops
2:23-
28.
Ekanayake, I.J., and Lyasse, O. 2003. Genotypic variation
in physiological deterioration of cassava (
Manihot escu-
lenta
Crantz) storage roots under inland valley condition.
Food Agriculture and Environment
1:108-111.
Everson, R.E., and Gollin, D. 2003. Assessing the impact of
the Green Revolution, 1960-2000.
Science
300:758-761.
FAO. 2005. Food and Agriculture Organization of the United
Nations
FAOSTAT. 2009. Food and Agriculture Organization of the
United Nations.
www.faostat.fao.org
FAOSTAT. 2010. Food and Agriculture Organization of the
United Nations.
www.faostat.fao.org
Fargette, D., Colon, L.T., Bouveau, R., and Fauquet, C.
1996. Components of resistance of cassava to African
cassava mosaic virus.
Europan Journal of Plant Pathol-
ogy
102:645-654.
Fargette, D., Fauquet, C., and Thouvenel, J-C. 1988. Yield
losses induced by African cassava mosaic virus in rela-
tion to the mode and date of infection.
Tropical Pest
Management
34:89-91.
Fargette, D., Jeger, M., Fauquet, C.M., and Fishpool, L.D.
1994. Analysis of temporal disease progress of African
cassava mosaic virus.
Phytopathology.
54:91-98.
Fauquet, C.M., and Fargette, D. 1990.
African cassava
mosaic virus: etiology, epidemiology and control. Plant
Disease
74:404-411.
Fauquet, C.M., Briddon, R.W., Brown J.K., Moriones, E.,
Stanley, J., Zerbini, M., and Zhou, X. 2008. Gemi-
nivirus strain demarcation and nomenclature.
Archives of
Virology
153:783-821.
Fondong, V.N., Pita, J.S., Rey, M.E., de Kochko, A.,
Beachy, R.N., and Fauquet, C.M. 2000. Evidence of
synergism between African cassava mosaic virus and a
new double-recombinant geminivirus infecting cassava
in Cameroon.
Journal of General Virology
81:287-297.
Fregene, M., and Puonti-Kaerlas J. 2002. Cassava biotech-
nology. In
Cassava: biology, production and utilization
,
edited by R.J. Hillocks, J.M. Thresh, and A.C. Bellotti.
CABI Publishing, Wallingford, UK, pp. 179-207.
Fregene, M., Bernal, A., Duque, M., Dixon A.G.O., and
Tohme J. 2000. AFLP analysis of African cassava (
Mani-
hot esculenta
Crantz) germplasm resistant to the cassava
mosaic disease (CMD).
Theoretical and Applied Genet-
ics
100:678-685.
Fregene, M., Ange, F., Gomez, R., Rodriguez, F., Chavar-
riaga, P., Roca, W., Tohme, J., and Bonierbale, M.
1997. A molecular genetic map of cassava (
Manihot escu-
lenta
Crantz).
Theoretical and Applied Genetics
95:431-
441.
Fregene, M., Morante, N., Sanchez, T., Marin, J., Ospina,
C., Barrera, E., Gutierrez, J., Guerrero, J, Bellotti, A.,
Santos, L, Alzate, A., Moreno, S., and Ceballos, H.
2006. Molecular markers for introgression of useful traits
from wild relatives of cassava, marker assisted selection
(MAS) of diseases and root quality traits.
Journal of Root
Crops
32:1-31.
Fregene, M.A., Suarez, M, Mkumbira, J., Kulembeka, H.,
Ndedya, E., Kullaya, A., Mitchel, S., Gullberg, U,
Rosling, H., Dixon, A.G.O., Dean R., and Kresovich,
S. 2003. Simple sequence repeat marker diversity in cas-
sava landraces: genetic diversity and differentiation in
an asexually propagated crop.
Theoretical and Applied
Genetics
107:1083-1093.
Fukuda, W.M.G. 1980. Tecnica de polinizacao
manual de mandioca. CNPMF, Miscelanea, 01.
EMBRAPA/CNPMF (Empresa Brasileira de Pesquisa
Agropecularia/Centro Nacional de Pesquisa de Manioca
e Fruticultura), Cruz das almas, BA, Brazil.
Gibson, R.W., Legg, J.P., and Otim-Nape, G.W. 1996.
Unusually severe symptoms are a characteristic of the
current epidemic of mosaic virus disease of cassava in
Uganda.
Annals of Applied Biology
128:479-490.
Hahn, S.K., Howland, A.K., and Terry, E.R. 1980a. Corre-
lated resistance of cassava to mosaic and bacterial blight
diseases.
Euphytica
29:305-311.
Hahn, S.K., Terry, E.R., and Leuschner, K. 1980b. Breeding
cassava for resistance to cassava mosaic disease.
Euphyt-
ica
29:673-683.
Search WWH ::
Custom Search