Evaluating the Effectiveness of Different Rhizobia Strains and Their Effect on Crop Yields in Acid Soils of Western Kenya

Evaluating the Effectiveness of Different Rhizobia Strains and Their Effect on Crop Yields in Acid Soils of Western Kenya

Food insecurity in Sub - Saharan Africa (SSA) is on the rise due to soil fertility depletion and in Kenya, Nitrogen (N) is one of the widely deficient nutrients. Biological nitrogen fixation (BNF) can replenish N into the soil system. A study was carried out in acid soils at Koyonzo and Ligala sites...

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Main Authors: Janet Kemuma Ogega, Beatrice Ang’iyo Were, Abigael Otinga Nekesa, John Robert Okalebo
Format: Article
Language:English
Published: Turkish Science and Technology Publishing (TURSTEP) 2018-03-01
Series:Turkish Journal of Agriculture: Food Science and Technology
Subjects:
Groundnut yield
Rhizobia inoculation
Lime
Indigenous strain
Nitrogen fixation
Online Access:http://www.agrifoodscience.com/index.php/TURJAF/article/view/1553
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spelling doaj-62c19d38cd6c4721950797ffdadc4e502020-11-25T03:40:27ZengTurkish Science and Technology Publishing (TURSTEP)Turkish Journal of Agriculture: Food Science and Technology2148-127X2018-03-016219519810.24925/turjaf.v6i2.195-198.1553789Evaluating the Effectiveness of Different Rhizobia Strains and Their Effect on Crop Yields in Acid Soils of Western KenyaJanet Kemuma Ogega0Beatrice Ang’iyo Were1Abigael Otinga Nekesa2John Robert Okalebo3School of Agriculture and Biotechnology, P. O. Box 1125,School of Science, University of Eldoret. P. O. Box 1125School of Agriculture and Biotechnology, P. O. Box 1125School of Agriculture and Biotechnology, P. O. Box 1125Food insecurity in Sub - Saharan Africa (SSA) is on the rise due to soil fertility depletion and in Kenya, Nitrogen (N) is one of the widely deficient nutrients. Biological nitrogen fixation (BNF) can replenish N into the soil system. A study was carried out in acid soils at Koyonzo and Ligala sites of western Kenya to determine the effectiveness of different inoculants after agricultural lime application in enhancing BNF and yields of groundnuts (Arachis hypogea L.) and maize (Zea mays L.) intercrop. Red Valencia groundnut variety was intercropped with Hybrid 513D maize variety. A6w, W1w and V2w indigenous rhizobia strains were tested alongside a commercial rhizobia strain called biofix. Nitrogen treatment was included as a positive control. The results showed that inoculation significantly increased nodule number and weight per plant. There were significant differences among indigenous rhizobia in fixing N. Rhizobia inoculation accounted for 58.91% and 78.95% increase in the amount of N fixed above the control at Koyonzo and Ligala respectively. The strain that fixed the highest amount of N was A6w followed by V2w and W1w at both sites under the dolomitic soil amendment with the values of 14.67, 9.56, 3.53 and 11.37, 8.20 and 1.50 kg N ha-1, respectively at Koyonzo and Ligala sites. Rhizobia inoculation accounted for 80.96% and 47.09% maize yield increase at Koyonzo and Ligala respectively. The best inoculant A6w, gave maize yields of 3.76 and 2.78 t ha-1 at Koyonzo and Ligala, respectively. In conclusion soil amendment with dolomitic lime and inoculating groundnuts with rhizobia strain A6w resulted in increased groundnut and maize yields. This practice can, therefore, be adopted by farmers in western Kenya to improve the productivity of the groundnut maize intercropping systems.http://www.agrifoodscience.com/index.php/TURJAF/article/view/1553Groundnut yieldRhizobia inoculationLimeIndigenous strainNitrogen fixation
collection DOAJ
language English
format Article
sources DOAJ
author Janet Kemuma Ogega
Beatrice Ang’iyo Were
Abigael Otinga Nekesa
John Robert Okalebo
spellingShingle Janet Kemuma Ogega
Beatrice Ang’iyo Were
Abigael Otinga Nekesa
John Robert Okalebo
Evaluating the Effectiveness of Different Rhizobia Strains and Their Effect on Crop Yields in Acid Soils of Western Kenya
Turkish Journal of Agriculture: Food Science and Technology
Groundnut yield
Rhizobia inoculation
Lime
Indigenous strain
Nitrogen fixation
author_facet Janet Kemuma Ogega
Beatrice Ang’iyo Were
Abigael Otinga Nekesa
John Robert Okalebo
author_sort Janet Kemuma Ogega
title Evaluating the Effectiveness of Different Rhizobia Strains and Their Effect on Crop Yields in Acid Soils of Western Kenya
title_short Evaluating the Effectiveness of Different Rhizobia Strains and Their Effect on Crop Yields in Acid Soils of Western Kenya
title_full Evaluating the Effectiveness of Different Rhizobia Strains and Their Effect on Crop Yields in Acid Soils of Western Kenya
title_fullStr Evaluating the Effectiveness of Different Rhizobia Strains and Their Effect on Crop Yields in Acid Soils of Western Kenya
title_full_unstemmed Evaluating the Effectiveness of Different Rhizobia Strains and Their Effect on Crop Yields in Acid Soils of Western Kenya
title_sort evaluating the effectiveness of different rhizobia strains and their effect on crop yields in acid soils of western kenya
publisher Turkish Science and Technology Publishing (TURSTEP)
series Turkish Journal of Agriculture: Food Science and Technology
issn 2148-127X
publishDate 2018-03-01
description Food insecurity in Sub - Saharan Africa (SSA) is on the rise due to soil fertility depletion and in Kenya, Nitrogen (N) is one of the widely deficient nutrients. Biological nitrogen fixation (BNF) can replenish N into the soil system. A study was carried out in acid soils at Koyonzo and Ligala sites of western Kenya to determine the effectiveness of different inoculants after agricultural lime application in enhancing BNF and yields of groundnuts (Arachis hypogea L.) and maize (Zea mays L.) intercrop. Red Valencia groundnut variety was intercropped with Hybrid 513D maize variety. A6w, W1w and V2w indigenous rhizobia strains were tested alongside a commercial rhizobia strain called biofix. Nitrogen treatment was included as a positive control. The results showed that inoculation significantly increased nodule number and weight per plant. There were significant differences among indigenous rhizobia in fixing N. Rhizobia inoculation accounted for 58.91% and 78.95% increase in the amount of N fixed above the control at Koyonzo and Ligala respectively. The strain that fixed the highest amount of N was A6w followed by V2w and W1w at both sites under the dolomitic soil amendment with the values of 14.67, 9.56, 3.53 and 11.37, 8.20 and 1.50 kg N ha-1, respectively at Koyonzo and Ligala sites. Rhizobia inoculation accounted for 80.96% and 47.09% maize yield increase at Koyonzo and Ligala respectively. The best inoculant A6w, gave maize yields of 3.76 and 2.78 t ha-1 at Koyonzo and Ligala, respectively. In conclusion soil amendment with dolomitic lime and inoculating groundnuts with rhizobia strain A6w resulted in increased groundnut and maize yields. This practice can, therefore, be adopted by farmers in western Kenya to improve the productivity of the groundnut maize intercropping systems.
topic Groundnut yield
Rhizobia inoculation
Lime
Indigenous strain
Nitrogen fixation
url http://www.agrifoodscience.com/index.php/TURJAF/article/view/1553
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AT abigaelotinganekesa evaluatingtheeffectivenessofdifferentrhizobiastrainsandtheireffectoncropyieldsinacidsoilsofwesternkenya
AT johnrobertokalebo evaluatingtheeffectivenessofdifferentrhizobiastrainsandtheireffectoncropyieldsinacidsoilsofwesternkenya
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