硝酸钾喷雾对乌干达芒果品种开花结果的影响

Annet Katwesige, G. Ddamulira, S. Katuromunda
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摘要

目的:评价硝酸钾(KNO3)对乌干达芒果开花结果的影响。研究设计:随机完全区组设计。研究地点和时间:2015年和2016年,国家作物资源研究所纳木隆格、国家半干旱资源研究所塞勒尔和霍马布林迪地带农业研究所。方法:该研究是在三个地点同时种植的8年芒果果园上进行的。主地块处理包括三个芒果品种(Bire、Tommy Atkins和Zillate),而子地块处理包括四种浓度的KNO3(0为对照、1、2和4%)。测定了施用KNO3诱导的顶芽数、开花率、每20穗坐果数和单株产量。结果:喷施KNO3的树木顶芽数高于对照(P < 0.05)。在不同的地点,布尔产生的芽数(64.8)高于汤米·阿特金斯(46.3)和齐拉特(17.8)。Bire的开花反应(28.6%)高于Tommy Atkins(20.8%)和Zillate(17.8%)。喷施2% KNO3的开花响应(31.4%)高于喷施1% KNO3的开花响应(24.7%)。4% KNO3处理的平均每20穗诱导果数(8.24)高于1% KNO3处理的平均每20穗诱导果数(4.8)。汤米·阿特金斯的果实产量(23.01 kg/棵)高于布尔(10.97 kg/棵)。喷施2% KNO3的平均果实产量(27.36 kg/棵)高于喷施1% KNO3的平均果实产量(15.93 kg/棵)。结论:为了获得更好的水果产量,布林迪农民应种植汤米阿特金斯并施用2%的KNO3。纳穆隆格的农民可以种植三种芒果中的任何一种,并施用2%或4%的KNO3,而Serere的农民可以种植Tommy Atkins和Zillate,并应施用4%的KNO3。
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Effect of Potassium Nitrate Spray on the Flowering and Fruiting of Mango Varieties Grown in Uganda
Aims: To evaluate the effect of potassium nitrate (KNO3) on flowering and fruiting of mangoes in Uganda. Study Design:  Randomized complete block design in a split plot arrangement. Place and Duration of Study: National Crops Resources Research Institute Namulonge, National Semi–Arid Resources Research Institute in Serere and Bulindi Zonal Agricultural Research and Development Institute in Hoima in 2015 and 2016. Methodology: The study was superimposed on eight-year-old mango orchards which were simultaneously planted at the three sites. Main plot treatments comprised three mango varieties (Bire, Tommy Atkins, Zillate), while sub-plot treatments comprised four concentrations of KNO3 (zero as control, 1, 2 and 4%). Data was collected on number of terminal buds induced after applying KNO3, percentage flowering, number of fruits set per 20 panicles and fruit yield per tree. Results: Trees sprayed with KNO3 produced higher (P < .05) numbers of terminal buds than the control. Across sites, Bire produced higher numbers of buds (64.8) than Tommy Atkins (46.3) and Zillate (17.8). Flowering response was higher in Bire (28.6%) than in Tommy Atkins (20.8%) and Zillate (17.8%). Flowering response of trees sprayed with 2% KNO3 (31.4%) was higher than that of trees sprayed with 1% KNO3 (24.7%). Mean number of fruits induced per 20 panicles in trees sprayed with 4% KNO3 (8.24) was higher than that of trees sprayed with 1% KNO3 (4.8). Fruit yield of Tommy Atkins (23.01 kg/tree) was higher than that of Bire (10.97 kg/tree). Mean fruit yield of trees sprayed with 2% KNO3 (27.36 kg/tree) was higher than that of trees sprayed with 1% KNO3 (15.93 kg/tree). Conclusion: For better fruit yields, farmers at Bulindi should grow Tommy Atkins and apply 2% KNO3. Farmers at Namulonge can grow any of the three mango varieties and apply 2 or 4% KNO3, while those at Serere can grow Tommy Atkins and Zillate, and should apply 4% KNO3.
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