Taxonomic audit was carried out on three varieties of sweet potato (Ipomoea batata) in north central part of
Nigeria. Ten (10) tubers of the representative samples of
three varieties of sweet potato (Purple, Yellow and White varieties) were
collected from different locations within the north central part of Nigeria and
planted in the research farm of the University of Agriculture, Makurdi,
Nigeria. At full maturity, they were characterized using gross macro- and micromorphological features. Mean values of all quantitative parameters were computed
for each variety. Qualitative and quantitative data generated were analysed by using
SPSS software 20.0 version. Box plots and charts were constructed to reveal
level of variations at a glance. Dendrogram was generated using furthest neighbor method to reveal
the phylogenetic relationships among the varieties. Statistical test of significance
was performed on major variable characters. From the results, the three
varieties varied significantly in their epidermal characters such as stomatal
types, stomatal indices and number of epidermal cells. Stomata types were
tetracytic, anisocytic, and paracytic in all but the Purple variety had an
additional stomatal type (anomocytic). Macroscopically, variation was observed
with respect to some qualitative characters (leaf apices, leaf shape, leaf
margins, leaf bases, leaf colour, stem colour and root colour) and quantitative
characters (leaf sizes, petiole length, stem diameter, root sizes and plant
height) at significant levels (p < 0.05). As a result, dendrogram classified
the three varieties where the yellow and purple types were widely divergent as
two separate species under the Genus Ipomoea.
The white type could be seen as a variety of the yellow type based on their
close relationship. The synergistic information obtained from both
morphological and anatomical sources of evidence in this report has yielded a
reliable result that may call for appropriate nomenclatural assignments. Hence,
the authors suggest the following nomenclatures: Ipomea batatas var makurdi (Yellow variety); Ipomoea batatas var lafia (White variety) and Ipomoea aguoru (Purple variety).
References
[1]
Dutta, A.C. (2007) Botany for Degree Students. Revised 6th Edition, Oxford University Press, New Delhi,
570 p.
[2]
Purseglove, J.W.
(1968) Tropical Crops: Dicotyledons, Longman Scientific and Technical. John
Wiley and Sons Inc., New
York.
[3]
Woolfe, J.A. (1992) Sweet Potato: And Untapped
Food Resource. Cambridge University Press and the International Potato Center (CIP), Cambridge.
[4]
Gad, L. and George, T. (2009) The Sweet Potato.
391-425.
[5]
Nishiyama, I. (1971) Evolution and Domestication of the Sweet
Potato. The Botanical Magazine (Tokyo), 84, 377-387.
Austin, D.F. (1979) An Infrageneric
Classification for Ipomoea (Convolvulaceae). Taxon, 28, 359-361. http://dx.doi.org/10.2307/1219747
[8]
Austin, D.F. and Huáman, Z. (1996) A Synopsis
of Ipomoea (Convolvulaceae) in the
Americas. Taxon, 45, 3-38. http://dx.doi.org/10.2307/1222581
[9]
Rhoda, A.N. (1994) Nutrition Kenyan Sweet
Potato Recipes. Kenya Agricultural Research Institute, 1-6.
[10]
Villareal, D., Apavian,
C., Kushner, R. and
Klein, S. (2005) Obesity in Older Adults: Technical Review and Position Statement of the American Society
for Nutrition and NAASO. The Obesity Society. American Journal of Clinical Nutrition, 82, 923-934.
[11]
Austin, D.F. (1988) The Taxonomy, Evolution and Genetic Diversity of
Sweet Potatoes and Related Wild Species. In:
Gregory, P., Ed., Exploration, Maintenance and Utilization of Sweet Potato
Genetic Resources, Report of the 1st Sweet Potato Planning Conference 1987, International Potato Center, Lima, 27-59.
[12]
CIP (International Potato Centre) (1987) Exploration Maintenance and Utilization of Sweet
Potato Genetic Resources. Report of the 1st Sweet Potato Planning Conference,
Lima, 369.
[13]
CIP (1996) Sweet
Potato Facts. International Potato Center, Lima.
[14]
Zhang,
D.P., Ghislain, M., Huaman, Z. and Golmirzaie, A. (1996) RAPD Analyses of
Genetic Diversity in Sweet Potato Cultivars from South America and Papua New
Guinea. International Plant Genome
Conference, San Diego, 14-18 January 1996, 93-103.
[15]
Abdulraham, A.A and Oladele, F.A. (2003)
Stomata Complex Types, Size, Density, in Some Vegetable Species in Nigeria. Nigerian Journal of Botany, 16, 144-150.
[16]
Metcalfe, C.R. and Chalk, L. (1979) Anatomy of Dicotyledonous. 2nd
Edition, Clarendon Press, Oxford, 456-473.
[17]
Aguoru, C.U., Omoigui, L.O. and Olasan, J.O. (2015) Molecular
Characterization of SolanumSpecies (Solanum aethiopicum Complex; Solanum macrocarpon and Solanum anguivi) Using Multiplex RAPD Primers. Journal of Plant Studies, 4, 1-8. http://dx.doi.org/10.5539/jps.v4n1p27
[18]
Mbagwu, F.N and Nwachukwu, C.U. (2008)
Comparative Leaf Epidermal Studies on S. macrocarpon and S. nigrum. Research Journal of Botany, 3,
45-48.
[19]
Aguoru, C.U. and Okoli, B.E. (2008) Seed Coat Anatomy of Momordica (Cucurbitaceae)
in Parts of Tropical Western Africa. International
Journal of Tropical Agriculture and Food Systems, 2, 29-33
[20]
Aguoru, C.U.
and Okoli, B.E. (2012) Comparative Stem and Petiole Anatomy of West African
Species of Momordica L (Cucurbitaceae). African
Journal of Plant Science, 16, 403-409. http://dx.doi.org/10.5897/AJPS11.309
[21]
Bohac, J.R., Jones, A. and Austin, D.F. (1992) Unreduced Pollen: Proposed
Mechanism of Polyploidization of Sweetpotato (Ipomoea batatas). HortScience,
27, 611.
