Paclobutrazol and Its Use in Fruit Production:A Review

There are documentary records referring to paclobutrazol(PBZ)as a growth bioregulator that inhibits the gibberellin synthesis and its application increases yields in fruit and vegetable crop productions.Its agronomic management includes it as an emerging technology to reduce vigour,promote flower induction and flower development in fruit trees with increased economic returns.Its use is banned in some countries because of concerns about residues that can cause harmful effects on the environment.Therefore,the aim of this article was to collect,analyse and summarise relevant information on the use of PBZ in fruit tree production and its possible risks to the environment.The results obtained indicated that the application of PBZ can be effective in solving some problems related to flowering if it is applied in the right amount and at the right time.However,it is necessary to elucidate the physiological processes with which it is associated and its response to be taken into account to increase yield.PBZ is currently used in fruit trees such as mango,lime,apple and guava,increasing their productivity.However,some studies have shown its residual effect on the environment.Therefore,PBZ is a viable strategy,because it presents a series of advantages in the production of fruit trees.However,it is vital to generate protocols that seek its regulation with a rational and sustainable approach.

Effects of Chemical Products on Fire Blight Suppression,and Fruit Production and Quality in Apple(Malus domestica Borkh.)cv.Golden Glory

Antibiotics are widely used in fire blight management programs,yet there are no studies that demonstrate the evaluation of their efficacy in Mexico.Therefore,the present study was conducted to investigate the effects of the active ingredients in five commercial products(Kasumin■2L,Agrygent Plus■,Agricultural Terramycin■,Agrimicin
100,and Actigard■)on fire blight suppression,and fruit yield and quality of apple(Malus domestica Borkh.)cv.Golden Glory.The experiment was conducted in a commercial orchard using a completely randomized block design,with six treatments:(1)Oxytetracycline[Ox],110 mg L^(−1);(2)Kasugamycin[Kas],4.7 mL L^(−1);(3)Oxytetracycline+Gentamicin[Ox+Gen],48 mg L^(−1)+12 mg L^(−1);(4)Streptomycin+Oxytetracycline[Str+Ox],90 mg L^(−1)+9 mg L^(−1);(5)Acibenzolar-S-methyl[ASM],70 mg L^(−1);and(6)Control,only water,with four replications,and three 11-year-old trees as an experimental unit.Variables of infection including flowers,shoots and fruits,yield and fruit quality were evaluated.All treatments suppressed infection in flowers,shoots,and fruits.ASM provided the highest levels of reduction of flower and shoot infection,while Kas had the least effect on the reduction of infection in these variables.The Ox+Gen treatment had the greatest suppression of fruit infection,and the best results on fruit yield and quality,followed by Ox and ASM.This is the first study conducted to evaluate the efficacy of the active ingredients of five commercial products used for the management of fire blight in apple trees in Mexico.