<p><strong>Background. </strong>Pedology is the study of soil genesis in its natural state. One way to assess the strength and productivity of a scientific field is to measure the number of publications over time. The number of soil papers published worldwide has almost doubled in the last ten years. However, that has not been the case in Eastern Africa, where this review is conducted. The scarcity of research in pedology motivates this study. <strong>Objectives. </strong>To review and analyze trends of publications in pedology/soil survey for the last ten years in (2010 - 2019) in Eastern Africa. <strong>Methodology. </strong>A search of scientific literature using <em>Google</em> and <em>Google Scholar</em> was conducted from 2010 - 2019. The search terms used were - soil survey, soil characterization, pedological characterization, and each of the Eastern African countries (Ethiopia, Kenya, Uganda, Tanzania, Rwanda, and Sudan). We then scrutinized the abstracts to find quantitative data on geographical locations. Additional articles were reviewed by checking through the reference lists of relevant studies in the peer-reviewed articles. <strong>Results</strong>. 56 scientific articles, 3 MSc/PhD theses reports, and 4 project reports/ proceedings were included for the full review. Out of this, 39 journal papers were identified and reviewed based on the years they were published, and the countries where they were published. Most articles were published in 2018. The data was then split into two segments, from the years 2010 - 2014 and 2015 - 2019. Between the years 2015 to 2019, a total of 36 articles were published compared to the years 2010 to 2014 where a total of 15 articles were published. This shows a slight increase in publications for the years under study. From the 56 articles, Ethiopia records the highest number of published articles from various journals having a total of 25 papers constituting 45% closely followed by Tanzania, having 27% equivalent to 15 papers. Kenya comes third in the overall ranking at 13% with 7 papers. The last three countries are Sudan, Rwanda, and Uganda with 10%, 3%, and 2% respectively. <strong>Implications</strong>. The results suggest that pedology seems to be a disappearing skill in the Eastern Africa region. Though there has been a spike in publications from 2015-2018, the current situation must be improved as there are limited publications from 2010 - 2019. <strong>Conclusion. </strong>The study shows that there have been a low number of publications in Eastern African countries. Ethiopia which has the highest number of publications shows the most promise in soil pedology publications. There is a need for an increase in pedology research which is important for agricultural production and land use planning.</p>
Taro (Colocasia esculenta (L.) Schott) is one of the most underutilized crops in sub-Saharan Africa and an important staple food in the tropics. Understanding its growth response under selected watering regimes and planting densities underpins this research. A study was conducted at the Kenya Agricultural and Livestock Research Organization (KALRO), Embu Research Centre, during the long rains (LR) in 2021 and the short rains (SR) in 2021–2022. A factorial experiment with a split-plot layout arranged in a completely randomized block design was used. The main factor was the irrigation levels, while the subfactor was the planting density, with three replications. The three irrigation levels were at 100%, 60%, and 30% based on the field capacity (FC). The planting densities used were 0.5 m × 0.5 m (40,000 plants ha−1), 1 m × 0.5 m (20,000 plants ha−1), and 1 m × 1 m (10,000 plants ha−1), representative of high, medium, and low planting densities, respectively. Time and season ( P < 0.05 ) significantly influenced taro growth components (plant height, leaf area, leaf area index, and vegetative growth index) and yield components (corm length, corm diameter, corm mass, yield, and total biomass). Planting density influenced the leaf area and the leaf area index ( P < 0.05 ). The watering regime did not affect taro growth or yield components. Corm mass (0.59 kg), total biomass (49.8 t/ha), and yield (13.38 t/ha) were all the highest in the 30% FC. The 1 m × 0.5 m spacing produced the highest corm mass (0.62 kg). The high planting density (0.5 m × 0.5 m) resulted in the highest total biomass (70.2 t/ha), yield (20.84 t/ha), and harvest index (30.44%). As a result, the 0.5 m × 0.5 m planting density and 30% FC watering regime are recommended to farmers in the area for increased yields and food security.
<p><strong>Background. </strong>Taro (<em>Colocasia esculenta</em>) can be grown in a variety of environmental and edaphic conditions, but it is most typically grown in wetlands. The optimal conditions for its growth are two water regimes i.e., waterlogged or flooded conditions to dryland or unflooded conditions. An important criterion in crop yield is water use efficiency (WUE), and it has been suggested that crop production per unit of water used can be increased. <strong>Objectives.</strong> To determine the WUE of taro in Kenya’s sub-humid environment under different watering regimes and planting densities. <strong>Methodology.</strong> A study was conducted at the Kenya Agricultural and Livestock Research Organization (KALRO) – Embu Research Centre, during the long rains (LR) 2021, short rains (SR) 2021/2022, and long rains (LR) 2022. A factorial experiment with a split-plot layout arranged in a completely randomized block design was used. The main factor was the irrigation levels while the sub-factor was the planting density, with three replications. The three irrigation levels were at 100 %, 60 %, and 30 % based on the field capacity (FC). The planting densities used were 0.5m × 0.5m (40,000 plants ha<sup>-1</sup>), 1m × 0.5m (20,000 plants ha<sup>-1</sup>), and 1m × 1m (10,000 plants ha<sup>-1</sup>), representative of high, medium, and low planting densities respectively. <strong>Results.</strong> The WUE was influenced by season and watering regime (<em>P < 0.05</em>). The 30% FC had the highest WUE with the 100 % FC having the lowest. The high WUE under 30 % FC (19.40 kg ha<sup>-1</sup>mm<sup>-1</sup>) was associated with the high biomass (1.97 kg) and low water use (2269.41 mm) recorded under limited water conditions. The medium (1m × 0.5m) planting density attained the highest WUE (12.16 kg ha<sup>-1</sup>mm<sup>-1</sup>) with the high planting density (0.5m × 0.5m) having the lowest (10.65 kg ha<sup>-1</sup>mm<sup>-1</sup>), though no significant differences were recorded. <strong>Implications. </strong>The<strong> </strong>varying watering regimes and planting densities in this study have different capacities to utilize the supplied water. The total taro biomass increased with decrease in water supplied and in turn maximized the water use efficiency. <strong>Conclusion.</strong> To achieve the highest yield per unit of water consumed, a watering regime of 30 % FC and a planting density of 1 m × 0.5 m (20,000 plants ha<sup>-1</sup>) is recommended.</p><p> </p><div id="gtx-trans" style="position: absolute; left: 179px; top: 404.969px;"> </div>
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