3,5,6-trichloro-2-pyridinyloxyacetic acid as effective thinning agent for fruit of 'Montenegrina' mandarin

Gonzatto, Mateus Pereira; Böettcher, Gerson Nestor; Schneider, Leonardo André; Lopes, Antonio de Barros; Júnior, Jairo Camargo Silveira; Petry, Henrique Belmonte; Oliveira, R. P. de; Schwarz, Sérgio Francisco

doi:10.1590/0103-8478cr20140057

Cited by 11 publications

(10 citation statements)

References 15 publications

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“…Different studies confirmed the effect of chemical thinning agents (synthetic auxins) on mandarin thinning ( [3], [4]). However, many chemicals are being released by the chemical companies [1] and other thinning method could be assessed.…”

Section: Introductionmentioning

confidence: 79%

Mechanical mandarin thinning related to fruitlet developing stage

Romano¹,

Torregrosa²,

Balasch³

et al. 2019

Congreso Ibérico De Agroingeniería

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Mandarin thinning is done by hand, increasing labor cost and raising total crop production costs. Mechanical thinning has been tested in peaches and other fruits. To achieve the maximum efficiency thinning requires to be applied at a specific stage of vegetative development. In this research study the mechanical thinning of mandarin branches during the different fruit developing stages has been assessed using a vibratory laboratory device (amplitudes 0.015 m and 0.030 mm and frequencies 34.8 Hz and 37.8 Hz). Branches with flower buds, flowers, small green fruits and medium green fruits were tested during 12 weeks and two different seasons. It was possible to detach mechanically flower buds, flowers and green fruits using different combinations of amplitudes and frequencies. Removal percentage decreased when increasing retention traction force, according to a logarithmic regression model. During fruit setting (weeks 5, 6 and 7) removal percentage was higher, when the retention force is very low. The first weeks just after the natural thinning could be consider the adequate time for a mechanical thinning operation.

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Section: Introductionmentioning

confidence: 79%

Mechanical mandarin thinning related to fruitlet developing stage

Romano¹,

Torregrosa²,

Balasch³

et al. 2019

Congreso Ibérico De Agroingeniería

View full text Add to dashboard Cite

show abstract

“…Different studies confirmed the effect of chemical thinning agents (synthetic auxins) on mandarin thinning [4,5]. However, many chemicals are being released by the chemical companies [1] and other thinning methods could be assessed.…”

Section: Introductionmentioning

confidence: 94%

Laboratory Device to Assess the Effect of Mechanical Thinning of Flower Buds, Flowers and Fruitlets Related to Fruitlet Developing Stage

et al. 2019

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Mandarin thinning is done by hand, increasing labor costs and raising total crop production costs. Mechanical thinning has been tested in peaches and other fruits. To achieve the maximum efficiency thinning has to be applied at a specific stage of vegetative development. In this research study, the mechanical thinning of 'Clemenrubi' mandarin branches during the different fruit development stages have been assessed using a vibratory laboratory device (amplitudes 0.015 and 0.030 m and frequencies 34.8 and 37.8 Hz). Branches with flower buds, flowers, small green fruits, and medium green fruits were tested for 12 weeks, in two different seasons. It was possible to mechanically detach flower buds, flowers, and green fruits using different combinations of amplitudes and frequencies.Removal percentage decreased when increasing retention traction force, according to a logarithmic regression model. A significant increment in equatorial diameter and retention traction force was registered when the fruit setting was finishing, while mass had a similar development with a week delay. During fruit setting (weeks 5, 6, and 7) removal percentage was higher, while the retention force was very low. The first weeks just after the natural thinning could be considered the adequate time for a mechanical thinning operation.

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“…Дія фізіологічно активних речовин зумовлює перебудову асиміляційного апарату рослини, зміну габітусу, співвідношення мас її органів, появу додаткових атрактивних центрів і посилення або послаблення функціонування вже існуючих, що свідчить про зміни характеру донорно-акцепторних відносин у рослині (Kuryata et al, 2017;Poprotska and Kuryata, 2017). Вплив рістстимулювальних препаратів пов'язаний із пришвидшенням процесів поділу, розтягуванням і диференціюванням з одночасним збільшенням лінійних розмірів рослин (Mesejo et al, 2012;Aremu et al, 2017;Madzikane-Mlungwana et al, 2017;Rai et al, 2017), площі асиміляційної поверхні (Rogach, 2009;Polyvanyj and Kuryata, 2015;Ren et al, 2017), підвищенням концентрації хлорофілу (Xiaotao et al, 2013;Luo et al, 2016;Ren et al, 2017) і як наслідок, активізацією фотосинтетичних процесів (Mоhammad and Mоhammad, 2013;Rai et al, 2017;Ren et al, 2017) і зростанням продуктивності культури (Gonzatto et al, 2016;Khalid et al, 2016;Alexopoulos et al, 2017).…”

Section: вступunclassified

“…Зокрема, обробка 3,5,6-трихлор-2-піридилоксіоцтовою кислотою рослин мандарина викликала гальмування ростових і фотосинтетичних процесів упродовж першої декади після обробки та поси-лювала їх у наступні етапи онтогенезу, що зумовило підвищення продуктивності порівняно з контролем (Mesejo et al, 2012). За результатами інших дослідників, вказаний препарат підвищував урожайність мандарина за рахунок збільшення розмірів і маси плодів без збільшення їх кількості (Gonzatto et al, 2016). Аналогічний ефект спостерігали за дії 2,4-дихлорфеноксіоцтової кислоти, застосованої на рослинах манго (Ahmed et al, 2012).…”

Section: вступunclassified

Influence of growth stimulants on photosynthetic apparatus, morphogenesis and production process of eggplant (Solanum melongena)

Rohach

2017

Biosys. divers.

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Artificial regulation of the growth and development of cultivated plants aiming at an increase of biological productivity and improvement of the quality of agricultural products is a significant objective of modern phytophysiology. The use of natural and synthetic growth stimulators is quite effective. The present paper discusses the issue of the influence of gibberellin acid (GA3), 1-naphthylacetic acid (1-NAA) and 6-benzylaminopurine (6-BAP) on the morphogenesis and productivity of aubergine plants of Diamond variety. Field experiments were conducted in 2013–2015. The plants were treated with such growth stimulators as 1-NAA, GA3 and 6-BAP at the concentration of 0.005% using a portable sprayer. The phytometric indices were fixed every 10 days, the mesostructure was checked in the leaves of the middle layer in the phase of fruit formation, the content of the amount of chlorophylls was determined in the fresh material by spectrophotometric method, the content of different forms of carbohydrates and nitrogen in the plant organs was estimated by biochemical methods in fixed dry material. It was found that GA3 increased plant height on average by 16.3%. 1-NAA and 6-BAP practically did not change linear plant sizes. The germicides increased the number of leaves per plant (10.8–30.8%), the mass of their raw matter (19.9–47.5%) and the area of the leaf surface (17.5–42.5%). The most significant impact on these indicators was made by GA3. All the germicides increased the number of leaves per plant (14.3–20.9%). 6-BAP increased the thickness of the leaf blades by 6.3% due to the growth of chlorenchyma, and GA3 reduced it by 9.2%. Under the influence of 6-BAP and 1-NAA, the thickness of chlorenchyma was increased by 7.0% and 5.9% respectively.The upper and lower epidermis became thinner or did not change under the effects of these germicides. Under the plant treatment with 1-NAA and 6-BAP, the size of columnar parenchyma cells increased by 25.6% and 19.6% and the size of the spongiform parenchyma cells increased by 8.4–76.7%. Under the action of GA3, the cell volume of the columnar parenchyma did not change significantly, and the size of the spongy cells increased. This paper reveals that all growth stimulants reduced the number of epidermis cells (6.6–7.4%). Under the action of 1-NAA and 6-BAP, there was a decrease in the number of stomata per 1 mm2 of the abacus leaf surface, respectively,by 6.5% and 21.2%. Instead, after the use of GA3, an increase in the number of stomata was observed by 21.8%. Such germicides as 1-NAA and GA3 reduced the area of respiratory area by 11.7% and 21.4%, while the 6-BAP increased its area by 10.4%. The results of the research show that 6-BAP increased the content of the sum of chlorophylls a + b in leaves by 13.3%. Under the action of 1-NAA, this indicator had only a tendency to increase (6.7%), but under the influence of GA3 it decreased. Moreover, the processing with germicides significantly increased leaf and chlorophyll indices. All three growth stimulants have increased the mass of dry matter of plants and the net productivity of photosynthesis. The data demonstrate that growth stimulants have contributed to the accumulation of various forms of carbohydrates in the roots and fruits. In the stems and leaves there was a tendency to decrease the content of sugars and starch. The germicides significantly reduced the content of all forms of nitrogen in the roots, stems and fruits, and increased the content of protein nitrogen in the leaves. Under the action of GA3 and 6-BAP, the number of fruits per plant increased by 19.3% and 16.1%, respectively. All growth stimulants have significantly increased the average weight of the individual fetus (7.4–10.3%). As a result, the weight of the fruits from one plant after treatment with 1-NAA, GA3 and 6-BAP increased by 11.0%, 28.0% and 29.4%, respectively. There are grounds to think that growth stimulants, influencing anatomical, morphological, physiological and biochemical characteristics of aubergines, changed the nature of the donor-acceptor relationships in the plant, which intensified the production process and optimized its productivity.

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3,5,6-trichloro-2-pyridinyloxyacetic acid as effective thinning agent for fruit of 'Montenegrina' mandarin

Cited by 11 publications

References 15 publications

Mechanical mandarin thinning related to fruitlet developing stage

Mechanical mandarin thinning related to fruitlet developing stage

Laboratory Device to Assess the Effect of Mechanical Thinning of Flower Buds, Flowers and Fruitlets Related to Fruitlet Developing Stage

Influence of growth stimulants on photosynthetic apparatus, morphogenesis and production process of eggplant (Solanum melongena)

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