Emmanuel Hanyabui scite author profile

Military Termites have been considered as a major pest causing significant reduction to crop productivity in tropical regions of the world. The termite destroys many plants (domestic and wild) at any stage of development from the seedlings to maturity. Crops such as cotton, wheat and ground nuts, upper land rice and eucalyptus trees are highly susceptible to termite damage. They destroy huge amounts of organic materials especially those used as mulches in plantation farming. However, there are beneficial termite activities such as organic matter decomposition and nutrient dynamics that are essential components in the soil ecosystem as they aid in maintaining long-term soil productivity and also in restoring barren soils. The review sought to establish the contribution of military termite activities to soil productivity. The result from the review showed that termite activities such as burrowing, chewing of plant litter, excavation activities in search of food, and construction of termitaria leads to improved soil structure, soil aeration, water infiltration via soil porosity, plant nutrient (calcium, nitrogen, phosphorus, potassium, magnesium) and soil organic matter which will eventually result to improved yields of crops. Also, termite mound has been suggested to be very effective for bulking agent for compost preparation and soil amendment.

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Remediation Technology for Copper Contaminated Soil: A Review

Apori

Hanyabui

Asiamah

2018

ASRJ

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Copper is a naturally occurring trace element present in all environmental media, including soil, sediment, air and water. It is an essential micronutrient critical for cell function, playing a vital role in processes. Copper contamination to agricultural soils is of great concern due to its wide and continuous use in agriculture and horticulture as fertilizers and fungicide. Copper contaminated soil is mainly attributed to agriculture activities such as continuous application of copper-based fungicides and pesticides application. A minireview was carried out using peer-reviewed articles published from 2000 to 2017, which methods of remediating copper soil. The AGORA and Google Scholar databases were used to conduct the search for articles using the terms copper and phytoremediation, Copper and Biological remediation, Copper and soil washing OR physical methods. Following these searches, 19 journal articles out of a total of 191 articles satisfied criteria for inclusion and were used in the final systematic review. The study showed that remediation technology for copper contaminated soil is divided into physical, chemical and biological categories. Physical methods are laborious and costly but can be applied to highly contaminated site; chemical methods have high efficiency and effective to remove the copper, but mostly popularized in a large scale; bioremediation methods including phytoremediation and microbial remediation are appropriate for large areas of soil contaminated by low concentrations of copper. The bioremediation methods are economical, eco-friendly but time consuming.

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Potential of termite mounds and its surrounding soils as soil amendments in smallholder farms in central Uganda

et al. 2020

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Objectives: The low fertility of highly weathered soils has been a major problem for resource-constrained smallholder farmers. In central Uganda, smallholder farmers have been collecting termite mound soils anywhere around the termite mound to improve their soil fertility. However, no studies have been conducted on which sections of the termite mounds consist of high soil nutrients. This study was conducted to assess selected major soil essential plant nutrients of soils collected from the top of the mound (TPMS), and the basal part of the mound (BPMS). The surrounding soil samples were collected from five, fifteen, and thirty meters away from the mound (TMSS1, TMSS2, and TMSS3 respectively), covering ten termite mounds in five different maize fields in central Uganda. Results: TPMS and BPMS had significant (P-value < 0.05) higher N, P, K, OC, Ca and Mg levels than TMSS1, TMSS2, and TMSS3. However, OC levels in BPMS was higher than TPMS. On the whole, termite mounds are beneficial as a source for essential plant nutrients. It will be best if smallholder farmers could collect the termite mound soils from the top and the basal part of the mound to improve the fertility of their soil.

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Influence of land use types on the distribution of selected soil properties in tropical soils of the Coastal Savanna zone

Abindaw

Hanyabui

Atiah

et al. 2023

Heliyon

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