INDUCTION OF VEGETATIVE GROWTH AFTER HARVESTING OF FRUITS IN MANGO CV. SAMMAR BAHISHT CHAUNSA BY USING DIFFERENT CHEMICALS

A. G. Grewal, Maqbool Ahmad, M. Zafar, S. Raza, G. Mustafa, M. A. Qureshi, Atif Iqbal
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Abstract

Mango, the king of fruits, is one of the most important fruit crops of Pakistan. In the country, Sammar Bahisht Chaunsa is a major cultivar grown for domestic consumption as well as exporting to international markets; however, the cultivar has a strong disorder of biennial bearing. The main cause of the disorder is lack of immediate, sufficient and vigorous postharvest vegetative growth, which is essential for next year flowering/fruiting. The current study was designed to overcome this fruiting pattern by inducing postharvest vegetative growth immediately after fruit harvesting as this growth is must required for flowering. The trial was conducted in the experimental orchard of Mango Research Station, Shujabad on 25 years old trees of cultivar Sammar Bahisht Chaunsa, planted at 12m apart rows and plants. The experiment was performed during 2015-2020. One level of urea (2%) and two levels of KNO3 (1 % and 2%) alone and in various combinations were applied to mango trees immediately after the fruit harvesting to study their effects on the induction of vegetative growth. It was found that KNO3 at 1% ensured the maximum postharvest growth (67.11%) with maximum flowering (39.49%), and fruit yield (241 kg/plant). However nonsignificant difference (25 to 26 OBRIX) in total soluble solids (TSS) and titratable acidity (TA) was noted(0.7 to 0.9%) in all the treatments. It was concluded that application of KNO3 twice at 10 days interval alone or in combination with urea 2% after the harvesting of fruits was found beneficial for getting proper postharvest growth in mango trees to support subsequent fruit crop.
芒果果实采后营养生长的诱导。Sammar baisht chaunsa使用不同的化学物质
芒果,水果之王,是巴基斯坦最重要的水果作物之一。在该国,Sammar baisht Chaunsa是国内消费和出口到国际市场的主要品种;然而,该品种具有较强的二年生开花障碍。造成这种失调的主要原因是采后缺乏及时、充分和旺盛的营养生长,这对来年开花/结果是必不可少的。目前的研究旨在通过在果实收获后立即诱导营养生长来克服这种结果模式,因为这种生长是开花所必需的。该试验是在Shujabad芒果研究站的实验果园进行的,在25岁的Sammar baisht Chaunsa品种的树上进行的,一排排和植株之间间隔12米。实验时间为2015-2020年。在芒果树收获后立即施用1个水平的尿素(2%)和2个水平的KNO3(1%和2%)以及不同组合,研究它们对芒果树营养生长的诱导作用。结果表明,1%的KNO3处理能保证采后生长(67.11%)、开花(39.49%)和果实产量(241 kg/株)达到最高水平。然而,所有处理在总可溶性固形物(TSS)和可滴定酸度(TA)方面(0.7至0.9%)差异不显著(25至26 OBRIX)。综上所述,在果实收获后单独施用两次KNO3或与2%尿素联合施用10 d,有利于芒果树采后生长,为后续果实作物提供支持。
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