Developmental and Morphological Indices of Phaseolus vulgaris L. and Soil Physico-chemical Properties during Serial Flooding in Bayelsa State, Nigeria

Contenu principal de l'article

Mbosowo M. Etukudo
Benefit Onu

Résumé

Background: Flooded soil is a significant agronomic problem because most plants do not tolerate excess water in the soil. Yenagoa, Bayelsa State is characterized by seasonal flooding that often engulf cultivated soils  This study was conducted to assess the response of Phaseolus vulgaris to flooded soil condition in the study area.


 


Methods: Viable seeds of the test crop were sterilized and sown in soils of Site A (control) and B (flooded soil) in rows. The research work was planned such that, the P. vulgaris seedlings were established up to one (1) month before the area (Site B) was flooded. Plant growth parameters such as plant height, leaf number, dry weight, nitrogen, phosphorus and potassium contents were examined.  Standard methods were used to determine the mineral nutrient compositions in the test plant.  Soil physico-chemical properties of the experimental soils were determined.


 


 Results: P. vulgaris exhibited moderate wilting and chlorosis during the first week of exposure to flood condition. The severity of wilting and chlorosis increased with increase in the duration of the stress condition. Other morphological characteristics observed were retarded growth, dropping of leaves, decrease leaf number, and reduced leaf size during the second and third week of exposure to flood condition, and death of the entire plant at the fourth week of study.  There were significant (P< 0.05) reductions in nitrogen, phosphorus and potassium contents of P. vulgaris under flooded condition relative to the control


 


Conclusion: This study showed that P. vulgaris was susceptible to flooded soil. 

Téléchargements

Les données relatives au téléchargement ne sont pas encore disponibles.

Renseignements sur l'article

Comment citer
M. Etukudo , M. ., & Onu, B. . (2021). Developmental and Morphological Indices of Phaseolus vulgaris L. and Soil Physico-chemical Properties during Serial Flooding in Bayelsa State, Nigeria. Nigerian Journal of Pharmaceutical and Applied Science Research, 10(1), 55–60. Consulté à l’adresse http://mail.nijophasr.net/index.php/nijophasr/article/view/424
Rubrique
Articles

Références

REFERENCES

Visser EJW, Voesenek ACJ, Vartapetian BB, Jackson MB. Flooding and Plant Growth. Annal. Bot. 2003; 91(2): 107–109.

Parent CC, Nicolas A, Berger M, Crevecoeur MF. 2008. An overview of plant response to soil waterlogging. Plant stress. Global Science Books.2008; 2(1):20-27.

Amin MR, Karim MA, Islam MR Aktar S Hossain DMA. Effect Of Flooding On Growth And Yield Of Mungbean Genotypes Bangladesh J. Agril. Res.2016; 41(1): 151-162,

Carter C, Halverson B, Rogers JS, Musgrave M. Effects of excess soil water on sweet corn yield. Trans. ASAE 1990; 33.1203-1207. In: Evaluating wheat cultivars for waterlogging tolerance. Crop ecology, production and management. Crop Sci. 28:90-97.

Debouck DG. “Neglected Crops: 1492 from a Different Perspective.” In Plant Production and Protection Series, no.26. Hernándo Bermejo J. E. and León J. Ed. Rome, Italy: FAO, 1994, p. 47-62.

Gómez O.Evaluation of Nicaraguan Common Bean (Phaseolus vulgaris L.) Landraces.” Ph.D thesis. Swedish University of Agricultural Sciences, Uppsala. 2004.

Brougthon WJ, et al. Beans (Phaseolus spp.): model food legumes. Plant Soil, 2003; 252:55–128.

Heuze V, Tran G, Noziere P, Lebas F. Common bean (Phaseolus vulgaris) Feedipedia, a programme by INRAE, CIRAD, AFZ and FAO, 2015

Niger Delta Source: Bayelsa State. (2014). http://nigeriadeltasource.com/bayelsa

A.O.A.C., Association of Official Analytical Chemist. Methods of analysis (16h Edition), Washington DC., U.S.A.1999.

Ano AO, Odoemelam SA, Ekwueme PO. Lead and cadmium levels in soils and cassava (Manihot esculenta Crantz) along Enugu- Port Harcourt express way in Nigeria.Electronic Journal of Environmental, Agricultural and Food Chemistry.2007; 6(5): 2024 - 031.

Obi 1U. Statistical Methods of Detecting Differences Between Treatment Means and Research Methodology Issues in Laboratory and Field Experiments. Nigeria, AP Express publishers limited, 2002.

Jackson MB, Colmer TD. Response and Adaptation by Plants to Flooding Stress. Annals of Botany, 2005;96(4): 501–505

Jackson MB. . The impact of flooding stress on plants and crops 2004;.http://www.plantstress.com/Articles/waterlogging_i/waterlog_i.htm

Armstrong W, Drew MC. . Root growth and metabolism under oxygen deficiency. In: Waisel Y, Eshel A and Kafkafi U, eds. Plant roots: the hidden half, 3rd edn. New York: Marcel Dekker, 2002; p.729–761.

Ransom J. Impacts of flooding/waterlogging on crop development. USDA National Institute of Food and Agriculture. Extension Agronomist for Cereal Crops, 2013.

Huang S, Greenway H, Colmer TD. Responses of coleoptiles of intact rice seedlings to anoxia: K+ net uptake from the external solution and translocation from the caryopses. Annals of Botany, 2003; 91: 271–278.

VartapetianBB, Andreeva IN, Generozova IP, Polyakova LI, Maslova IP, Dolgikh YI, Stepanova AYu. Functional electron microscopy in studies of plant response and adaptation to anaerobic stress. Annals of Botany, 2003; 91: 155–172.

Clark, J. Managing soil and soil fertility after flooding. South Dakota State University Extension 2020.

Gutierrez Boem FH, Lavado RS, Pprcelli C. Note on the effects of winter and spring waterlogging on growth, chemical composition and yield of rapeseed. Field Crops Research, 1996; 47: 175–179.

Steffens D, Hütsch BW, Eschholz T, Lošák T, Schubert S. Water logging may inhibit plant growth primarily by nutrient deficiency rather than nutrient toxicity Plant Soil Environ., 51, 2005 (12): 545–552