确定乌干达埃尔贡山地区马铃薯基因型的适应性

International Journal of Plant & Soil Science Pub Date : 2024-04-04 DOI:10.9734/ijpss/2024/v36i54562

Kwaka, L.W, Chemayek, B, Wasukira, A, Owere, L, Parka, M, Tusiime, G

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引用次数: 0

摘要

乌干达的马铃薯（Solanum tuberosum L.）主要产于西南部的卡巴莱和基索罗高原地区以及东部埃尔贡山山坡上的布吉苏和塞北地区。然而，由于缺乏合适的高产抗病品种，产量持续下降。这项研究的目的是确定适应埃尔贡山地区的高产抗病马铃薯基因型。在布兰布利区的布吉尼亚站，对八个CIP马铃薯克隆品种和十个在RCBD中普遍种植的乌干达品种进行了两季评估。结果表明，不同基因型在块茎大小、块茎均匀度、可销售块茎产量和块茎总产量方面存在明显差异（P<0.05）。马铃薯克隆 392797.22 和 398208.29 的块茎产量分别为 44.8 吨/公顷和 39 吨/公顷，显著高于当地对照 Cruza 的 34.5 吨/公顷（P<0.001）。抗性最强的基因型是 Kinigi 和克隆 399985.39，rAUDPC 分别为 0.0135 和 0.025，而最易感的基因型是 Bumbamagara（0.413）和 396036.201（0.392）。396036.201(0.051) 和 Kinigi 对细菌性枯萎病的抗性最强，而 Shangi (0.66) 和 Cruza (0.46) 则对 BW 最易感。总体而言，基因型 392797.22 和 398208.29 产量最高、抗病性最强，因此建议作为商业品种推出。

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Determining Adaptability of Potato Genotypes in Mount Elgon Region of Uganda

Potato (Solanum tuberosum L.) in Uganda is mainly produced in the highland areas of Kabale and Kisoro in south western and Bugisu and Sebei areas on the slopes of Mt. Elgon in the eastern part of the country. However, the yields have continuously reduced due to lack of suitable high yielding and disease resistant varieties. The purpose of this study was to identify high yielding disease resistant potato genotypes adapted to Mt. Elgon region. Eight CIP potato clones were evaluated alongside ten commonly grown Ugandan varieties in RCBD for two seasons at Buginyanya station, Bulambuli District. Results showed significant differences (P<0.05) in tuber size, tuber uniformity, marketable tuber yield and the total tuber yield among genotypes. Potato clones 392797.22 and 398208.29 produced significantly (P<0.001) higher tuber yield 44.8 t/ha and 39 t/ha respectively compared to the local check Cruza with 34.5 t/ha. rAUDPC for LB showed significant differences (P<0.001) among genotypes in both seasons. The most resistant genotypes were Kinigi and clone 399985.39 with rAUDPC of 0.0135 and 0.025 respectively whereas Bumbamagara (0.413) and 396036.201 (0.392) were the most susceptible. 396036.201(0.051) and Kinigi were the most resistant genotypes for bacterial wilt while Shangi (0.66) and Cruza (0.46) were the most susceptible to BW. Generally, genotypes 392797.22 and 398208.29 were the highest yielding and disease resistant hence recommended for release as commercial varieties.

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International Journal of Plant & Soil Science

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