Association between Cuttings Maturity and Alternative Substrates in the Rooting of Acerola Cherry

Pinheiro, Eduardo Mendonça; Araujo, José Ribamar Gusmão; Nobre, Camila Pinheiro; Araújo, Wallyson Santos; Ferraz Júnior, Altamiro Souza Lima; Mesquita, Mário Luiz Ribeiro

doi:10.1590/1678-4324-2024220451

Abstract

Vegetative propagation methods of acerola cherry are important in standardizing orchards and fruit quality, and the cutting process has been investigated as a promising alternative. The present work aimed to propose the best combination of substrate and cutting type (herbaceous and semi-woody) to provide a greater root rate and seedling development. The trial was conducted in a greenhouse at the State University of Maranhão, in São Luís - MA under intermittent nebulization conditions. The cuttings with dimensions of 10 cm were treated with indole butyric acid (IBA) at a concentration of 2,000 mg L^-1, and as substrate were used vermiculite (MV), Plantmax ® (PL) (commercial substrate based on decomposed pine bark), agricultural soil + tanned and sieved bovine manure (S + M) (50% + 50%, v / v); and vegetable soil (VS) composed of fresh soil with the remains of decomposed plants (leaves, stems, bark, and tree fern). The experiment was laid out in a randomized complete design in a 2 x 4 factorial arrangement (2 types of cuttings x 4 substrates) with eight replications with five cuttings per plot. At 60 days after the establishment of the trial, it was concluded that the best combination for rooting cuttings was vermiculite with herbaceous cuttings because they favor a higher rooting rate (95.0%). The alternative substrate composed of soil and tanned bovine manure provided promising results in the rate of rooting (72.5%), root formation, and vegetative development of the aerial part.

Keywords:
Malpighia emarginata DC; propagation; herbaceous cuttings; organic substrates

HIGHLIGHTS

• Herbaceous cutting of acerola cherry in vermiculite substrate are recommended to higher rooting rate.

• The use of soil and tanned bovine manure as substrate is promising to produce seedlings of acerola cherry

INTRODUCTION

The acerola cherry (Malpighia emarginata Sessé & Moc. Ex DC.), also known as Cherry of the Antilles, is a fruit tree native to the Caribbean, Central America, and northern South America, which found in Brazil favorable conditions for its commercial cultivation [¹1. Ritzinger, R, Ritzinger, CHSP. [Acerola]. Infor. Agropec. 2011 Set/Out; 32 (264):17-25., ²2. Ritzinger, R, Ritzinger, CHSP, Fonseca, N, Machado, C. D. F. Advances in the propagation of acerola. Rev. Bras. Frutic. 2017 Aug; 40(3): e-928. Doi: 10.1590/0100-29452018928.
https://doi.org/10.1590/0100-29452018928... ]. Brazil is the largest producer, consumer, and exporter of acerola cherry in the world, and northeast Brazil is the largest producing region [³3. IBGE. Censo Agro 2017 - [Acerola Brazil]. [Internet]. Rio de Janeiro, RJ: IBGE. 2017. [cited 2020 apr 30]. Available from:https://censoagro2017.ibge.gov.br/templates/censo_agro/resultadosagro/agricultura.html?localidade=0&tema=76215.
https://censoagro2017.ibge.gov.br/templa... ].

The growing consumption of acerola cherry is basically due to its high content of ascorbic acid (vitamin C) that can reach, in some cultivars, up to 5,000 mg 100 g^-1 of pulp, that is, up to 100 times more than the orange [⁴4. Ritzinger R. [Acerola]. Ficha técnica. [Internet]. [place unknown: publisher unknown]. 2016. [cited 2020 apr 30] Available from: http://www.todafruta.com.br/acerola/>.
http://www.todafruta.com.br/acerola... ]. However, there is a wide variation in the vitamin C content, from 779 to 3,094.43 mg 100 g^-1 of pulp [⁵5. Freitas CAS de, Maia GA, Costa JMC da, Figueiredo RW de, Sousa, PHM de. [Acerola: production, composition,nutritional aspects and products]. Curr. Agric. Sci. Techn., 2006 Out/Dec; 12(4):395-400.], which means that the vitamin C content, next to the red color of the peel and pulp, is an important criterion for the selection and multiplication of cultivars.

Almost all orchards have a marked mixture of acerola cherry plant types and forms due to the obtaining of seedlings by seeds [⁶6. Almeida JPN de, Dantas LLDGR, Arrais IG, Silva Tosta, M de, Mendonça V. [Arbuscular mycorrhizal fungus and seaweed extract in the initial growth of acerola rootstock]. Rev. Cienc. Agrar. 2014 Jan/Mar; 57(1): 22-8.]. This has caused serious problems for acerola cherry producers, because plants' unevenness causes management difficulties, such as the need for pruning, and losses in orchard productivity and fruit quality [⁷7. Sousa ES, Lobo JT, Carreiro DA, Dias DN, Sanches LG, Cavalcante IHL. Paclobutrazol in the flowering management affects the quality of Malpighia emarginata fruits. Pesq. Agropec. Trop. 2020 Jul.; 50: e62805.]. Orchards must be from well-defined acerola cherry varieties, with agronomic and technological characteristics, suitable for their intended purpose [⁸8. Franzão AA, Melo B. [The Barbados cherry culture] [Internet]. Uberlândia (MG): Núcleo de Estudo em Fruticultura no Cerrado. 2008. Available from: http://www.fruticultura.iciag.ufu.br/aceroleira.htm.
http://www.fruticultura.iciag.ufu.br/ace... ].

Vegetative propagation is based on the capacity of part of the plant to regenerate from somatic cells [⁹9. Nepomuceno, C. [In vitro propagation and conservation of Martianthus leucocephalus (MART. Ex BENTH.) JFB PASTORE] [Doctor’s thesis]. Feira de Santana (BA): Universidade Estadual de Feira de Santana; 2012. 179 p.] such as the rooting of cuttings. This faculty depends on two basic characteristics: totipotence and differentiation [¹⁰10. Hartmann, HT, Kester, DE, Davies Jr, FT. Plant Propagation Principles and Practices. 5th ed. Prentice Hall: Eaglewood Cliffs; 1990. P. 232-3., ¹¹11. Faganello, L. R. [Vegetative propagation of Cordia trichotoma minicuttings as a function of auxins and collection times] [master’s thesis]. Marechal Rondon (PR): Universidade Estadual do Oeste do Paraná; 2012. 75 p.], and implies the mitotic division of cells, in which there is a duplication in the chromosome and cytoplasm system [¹²12. Brandão RP, Nasser MD, Silva LSL, Oliveira LJ, Lundgren GA. [Scion of clays of acerola in commercial substrate and sand]. Colloq. Agrariae. 2020 Jan./Feb; 16(1): 43-47.]. In addition to generating a high number of individuals, the process maintains the essential characteristics of the genotype, contrary to what occurs when heterozygous plants come from seeds [¹³13. Fachinello JC, Hoffmann A, Nachtigal JC, Kersten E. [Vegetative propagation by cuttings]. In: Fachinello, JC et al. [Propagation on fruit plants]. 1st.ed. Brasília, D.: Embrapa Inf. Tecnolog.; 2005. P.69-109.]. This allows the multiplication of selected plants through cuttings and establishing uniform clonal plantations [¹⁴14. Oliveira, JD, Ferreira, FR. [Genetic improvement of passion fruit plant]. In: São José AR, Ferreira FR, Vaz RL. [The passion fruit culture in Brazil]. Jaboticabal: FUNEP. 1991. P. 211-239.].

The technique of vegetative multiplication most used for cloning woody and herbaceous plants on a large scale has been cutting [¹⁵15. Dias, PC, de Oliveira, LS, Xavier, A, Wendling, I. [Cutting and mini-cutting techniques of Brazil wood species]. Pesq. Flor. Bras. 2012 Oct/Dec; 32(72):453-3.]. By this method, new plants are produced by rooting parts of the branches, which can be herbaceous, semi-woody, woody, or mini cuttings [¹³13. Fachinello JC, Hoffmann A, Nachtigal JC, Kersten E. [Vegetative propagation by cuttings]. In: Fachinello, JC et al. [Propagation on fruit plants]. 1st.ed. Brasília, D.: Embrapa Inf. Tecnolog.; 2005. P.69-109., ²2. Ritzinger, R, Ritzinger, CHSP, Fonseca, N, Machado, C. D. F. Advances in the propagation of acerola. Rev. Bras. Frutic. 2017 Aug; 40(3): e-928. Doi: 10.1590/0100-29452018928.
https://doi.org/10.1590/0100-29452018928... , ¹⁶16. Mühlbeier DT, Koyama R, Chaves Junior OJ, Hussain I, Stenzel NMC, Roberto SR. Rooting of herbaceous cuttings of Malpighia emarginata DC (CAMB-06 and APU-04 selections) associated with the use of indolebutyric acid and liquid extract of Cyperus rotundus L. Rev. Bras. Frutic. 2020 Jan; 42(1): e-454.]. In this method, a regenerative process of sprouts and adventitious roots occurs in the nodal regions of the cutting [²2. Ritzinger, R, Ritzinger, CHSP, Fonseca, N, Machado, C. D. F. Advances in the propagation of acerola. Rev. Bras. Frutic. 2017 Aug; 40(3): e-928. Doi: 10.1590/0100-29452018928.
https://doi.org/10.1590/0100-29452018928... ].

Woody cuttings are obtained from lignified branches or stems, where they are preferably collected during the period of vegetative rest, and herbaceous cuttings are collected during the period of vegetative growth when the tissues present high meristematic activity and low degree of lignification [¹¹11. Faganello, L. R. [Vegetative propagation of Cordia trichotoma minicuttings as a function of auxins and collection times] [master’s thesis]. Marechal Rondon (PR): Universidade Estadual do Oeste do Paraná; 2012. 75 p.]. The term “semi-woody” refers to intermediate cuttings between herbaceous and woody. The stake preparation should be 10 to 20 cm long [²³23. Lima RDLSD, Siqueira DLD, Weber OB, Cazetta JO. [Size and part of the branch to be used as Barbados cherry cuttings]. Rev. Bras. Frutic. 2006 Apr; 28(1): 83-6.].

Lima and coauthors (2006) [²³23. Lima RDLSD, Siqueira DLD, Weber OB, Cazetta JO. [Size and part of the branch to be used as Barbados cherry cuttings]. Rev. Bras. Frutic. 2006 Apr; 28(1): 83-6.] confirmed the viability of the acerola cherry asexual propagation by cutting rooting. This method ensures greater precocity in production as well as the transmissibility of the genetic characteristics of the propagated plant [⁸8. Franzão AA, Melo B. [The Barbados cherry culture] [Internet]. Uberlândia (MG): Núcleo de Estudo em Fruticultura no Cerrado. 2008. Available from: http://www.fruticultura.iciag.ufu.br/aceroleira.htm.
http://www.fruticultura.iciag.ufu.br/ace... ]. In a study [¹⁷17. Roberto, SR, Paiolo, PAC. [Evaluation of techniques for ‘Dominga’ acerola softwood cuttings multiplication]. Semina: Ciênc. Agrár. 2002 Apr; 23(2): 165-72.], they obtained 87% of rooted cuttings and a high survival rate, evidenced by these characteristics in acerola cherry cuttings.

The importance of the rooting medium (substrates) in the cutting rooting process is related to its ability to provide sufficient porosity to allow good aeration and to ensure adequate oxygen availability for the root system’s growth and development. Regarding low-cost or alternative substrates, one should choose simple materials or mixtures of common and easily available types. There are several materials on the market used as plant substrates, such as vermiculite, carbonized rice husks, sawdust, and sand, among others [¹⁸18. Hoffmann A, Nachtigal JC, Rossal PAL, Castro AD, Fachinello JC, Pauletto EA. [Influence of the substrate on the rooting of semi-hardwood fig and araçazeiro cuttings]. Rev. Bras. Frutic. 1994 Jan; 16(1): 302-7., ¹⁹19. Ezekiel, A. Viable options and factors in consideration for low-cost vegetative propagation of tropical trees. Int J Botany. 2010 Jun; 6(2): 187-93., ²⁰20. Galeti, NCS, Cichelero, W, Munhoz, REF, Zonetti, PC. [Mulberry Cuttings Submitted to pre-treatments with water and different organic substrates]. Sci. Agrar. 2010 Nov/Dec; 11(6): 451-7., ²¹21. Almeida JPN de, Dantas LLDGR, Pereira EC, da Silva Tosta M, de Medeiros PVQ. [Composition of alternative substrate with sunflower chapter in the production of papaya seedlings]. Rev. Verde. 2011 Jan./Mar;6(1):174-8., ²²22. Melo LAD, Pereira GDA, Moreira EJC, Davide AC, Silva EVD, Teixeira LAF. [Growth of Eucalyptus grandis and Eremanthus erythropappus seedlings under different substrate formulas]. FLORAM. 2014 Jun; 21:234-42.].

Acerola cherry was introduced in the state of Maranhão in the late 1980s and its expansion in the state occurred with ungrafted seedlings, being cultivated in small orchards that exhibit high variability of plants and fruits. There is no offer of cloned seedlings obtained by vegetative propagation by either grafting or cutting.

Acerola seedlings produced through vegetative propagation (cuttings) in combination with a good substrate can result in greater uniformity, reduce seedling production time in nurseries, and increase vigor and productivity. From this perspective, the present work aimed to propose the best combination of substrate and cutting type (herbaceous and semi-woody) to provide a greater root rate and seedling development.

MATERIAL AND METHODS

Collection of cuttings and substrate preparation

We collected cuttings at two maturity stages (herbaceous and semi-woody) from healthy and vigorous plants, in a domestic orchard of the acerola cherry 'Andiroba' selection, aged five years, which produces red-colored fruits (bark and pulp). We removed the branches from the median and upper part of the plant canopy [²³23. Lima RDLSD, Siqueira DLD, Weber OB, Cazetta JO. [Size and part of the branch to be used as Barbados cherry cuttings]. Rev. Bras. Frutic. 2006 Apr; 28(1): 83-6.] and kept them with the base immersed in clean water and protected in the shade.

In laboratory conditions and on the same day we standardized the cuttings with 10 cm length with five pairs of leaves and with dormant buds. We made a bevel cut at the base of the stake at 1.0 cm from the node and a straight cut at the apex. We reduced the leaves to half of their size and kept each cutting with three pairs of half leaves [²⁴24. Gontijo TCA, Ramos JD, Mendonça V, Pio R, Araújo Neto SED, Corrêa FLDO. [Rooting of different types of acerola cuttings using indol butiric acid]. Rev. Bras. Frutic. 2003 Aug; 25(2): 290-2.]. The cutting portions buried in the substrate correspond to two pairs of buds, without leaves.

We grouped the cuttings in bundles and treated them with indole butyric acid (IBA) at a concentration of 2,000 mg L^-1 [²⁴24. Gontijo TCA, Ramos JD, Mendonça V, Pio R, Araújo Neto SED, Corrêa FLDO. [Rooting of different types of acerola cuttings using indol butiric acid]. Rev. Bras. Frutic. 2003 Aug; 25(2): 290-2.]. The IBA hydroalcoholic solution was prepared [²⁴24. Gontijo TCA, Ramos JD, Mendonça V, Pio R, Araújo Neto SED, Corrêa FLDO. [Rooting of different types of acerola cuttings using indol butiric acid]. Rev. Bras. Frutic. 2003 Aug; 25(2): 290-2.]: with 0.2 g of IBA weighed on a semi-analytical scale and dissolved in 50 mL of ethyl alcohol in a Becker. After the IBA complete dissolution, we transferred it to a flask and completed the volume up to 100 ml with distilled water, obtaining the desired concentration (2,000 mg L^-1). We immersed the cuttings to half their length in the said solution for a period of 10 seconds.

We used expanded vermiculite (MV), Plantmax ® (PL) (commercial substrate based on decomposed pine bark), agricultural soil + tanned and sieved bovine manure (S + M) (50% + 50%, v / v); and vegetable soil (VS) composed of fresh soil with the remains of decomposed plants (leaves, stems, bark, and tree fern), as substrates. Chemical analyses of the substrates were carried out and the contents of organic matter, pH, P, K, Ca, Mg, Na, Al, H, and C were determined, adopting the methodology of Raij and Quaggio [²⁶26. Raij BV, Quaggio JA. [Soil analysis methods for fertility purposes]. Campinas (SP): Bol. Técn. IAC-81. 1983. 31 p.] (Table 1).

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Table 1
Chemical analysis results of the substrates used for rooting of the acerola cherry (Malpighia emarginata Sessé & Moc. Ex DC.) cuttings. São Luís, MA, 2017.

Conducting the experiment

The experiment was installed at the São Luís School Farm from the Center for Agricultural Sciences, State University of Maranhão, located on the Paulo VI campus, in São Luís, Maranhão, Brazil (02°31'51'' S and 44°18'24'' W)). The average temperature is around 27° C, with a maximum of 37°C and a minimum of 23°C.

The polystyrene trays with 128 cells (53 x 27 cm) (dimension of each cell: 5 x 3 cm), containing the different substrates, were used for the cutting rooting. The trays with the cuttings were kept under programmed intermittent nebulization conditions with a 60-second nebulization shift and operation every two minutes, due to the high local temperature.

The experiment was laid out in a randomized complete design in a 2 x 4 factorial arrangement (2 types of cuttings x 4 substrates), with eight replications, with each experimental unit composed of 5 cuttings. Two types of cuttings were used (herbaceous and semi-hardwood) which, in combination with different substrates, resulted in eight treatments.

Parameters evaluated

After 60 days of experimenting, the following variables were evaluated: the number of rooted cuttings from which the rooting percentage was calculated; the number of new leaves; the length of the aerial part, and the root system. Rooted cutting was defined when it presented at least one root with a minimum of 5 mm, with or without the presence of a callus. The number of leaves was obtained by counting new leaves fully expanded in the emitted shoots. The length of the aerial part was measured from the sprout emitted from the cutting to the apical bud, while the length of the root system was measured in centimeters from the base of the cutting to the apex of the largest root, both in centimeters using a measuring tape.

Statistical analysis

The data obtained were subjected to tests of normality, homogeneity, and analysis of variance, with the treatment, and means compared by the Tukey test at the level of 5% probability. Non-normal data even with transformations were analyzed using the Kruskal-Wallis non-parametric test (root length and number of rooted cuttings). For percentage data, the √x / 100 arc sine transformation was adopted. The data were analyzed by the software ASSISTAT version 7.7 beta [²⁷27. Silva FAS. (2016). Assistat: Versão 7.7 beta [internet]. Campina Grande (PB): DEAG-CTRN-UFCG. Available from: http://www.assistat.com.
http://www.assistat.com... ].

RESULTS

A statistically significant difference was observed when considering the main effects of the treatments, that is, the type of cuttings about the substrate and between the types of cuttings.

The type of cutting affects rooting. Herbaceous cuttings obtained the highest rooting rates (71.2%), while semi-hardwood cuttings reached 50.6% rooting percentage (Table 2). The rooting is related to species and mainly, to their age, in which younger plants rooted better than older plants [¹⁵15. Dias, PC, de Oliveira, LS, Xavier, A, Wendling, I. [Cutting and mini-cutting techniques of Brazil wood species]. Pesq. Flor. Bras. 2012 Oct/Dec; 32(72):453-3.].

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Table 2
Rooted cuttings (%)* of the acerola cherry (Malpighia emarginata Sessé & Moc. Ex DC.) 'Andiroba' selection under the influence of as affected by different substrates and two maturity stages, at 60 days after installation of the experiment. São Luís, MA, 2017.

Other authors have reinforced that those tissues with a lower degree of lignification, such as branches harvested from the apical position, have adequate physiological conditions for the emission of new structures such as adventitious roots [¹⁶16. Mühlbeier DT, Koyama R, Chaves Junior OJ, Hussain I, Stenzel NMC, Roberto SR. Rooting of herbaceous cuttings of Malpighia emarginata DC (CAMB-06 and APU-04 selections) associated with the use of indolebutyric acid and liquid extract of Cyperus rotundus L. Rev. Bras. Frutic. 2020 Jan; 42(1): e-454., ²³23. Lima RDLSD, Siqueira DLD, Weber OB, Cazetta JO. [Size and part of the branch to be used as Barbados cherry cuttings]. Rev. Bras. Frutic. 2006 Apr; 28(1): 83-6.].

It was found that the vermiculite commercial substrate provided a higher percentage of rooted cuttings (86.2%) compared to the other treatments (Table 2), confirming its good characteristics as a rooting material [¹⁸18. Hoffmann A, Nachtigal JC, Rossal PAL, Castro AD, Fachinello JC, Pauletto EA. [Influence of the substrate on the rooting of semi-hardwood fig and araçazeiro cuttings]. Rev. Bras. Frutic. 1994 Jan; 16(1): 302-7., ¹⁹19. Ezekiel, A. Viable options and factors in consideration for low-cost vegetative propagation of tropical trees. Int J Botany. 2010 Jun; 6(2): 187-93.]. The results for this substrate were superior to those reported in another study [¹⁷17. Roberto, SR, Paiolo, PAC. [Evaluation of techniques for ‘Dominga’ acerola softwood cuttings multiplication]. Semina: Ciênc. Agrár. 2002 Apr; 23(2): 165-72.] that found a rooting rate of 76.25%. Observed that the use of vermiculite resulted in greater rooting of acerola cuttings [²⁸28. Costa E, de Lima Silva PN, Ferreira AFA, da Rocha Silva AC, do Amaral Gomes V. [Rooting of acerola cutting: containers and substrates effects]. Agrarian. 2010 Aug;3(8):126-32.].

To mint seedlings (Mentha arvensis L.) formation, and asexual propagation of common horsetail (Equisetum arvense L.) Plantmax® is the recommended substrate [²⁹29. Paulus, D, Paulus, E. [Effect of agricultural substrates in the production of mint seedlings propagated through cuttings]. Hortic.bras. 2007 Dec; 25(4): 594-7.,³⁰30. Bonfim F, Casali VW, Valadares L, Freitas J, Marques G. [Influence of diferente types of cuttings and substrates on asexual propagation of horsetail (Equisetum arvense L.)]. Encicl. Biosf. 2011 Dec; 7(13):694-700.]. In this work, Plantmax® presented the lower rooting rate (27.5%) probably due to the association of limited space in the polystyrene trails and the humidity caused by the irrigation system, also induced by the occurrence of root fungi.

Considering the combination of herbaceous cuttings and substrates, the greatest rooting was ensured by vermiculite (95.0%) while the lowest rate was due to Plantmax (47.5%). For semi-hardwood cuttings, the rooting rate in the different substrates was lower than the apical cuttings (Table 2). The strategy of treatment of cuttings with indole butyric acid proved to be adequate in this study. Similar results were observed with peach [²⁵25. Cardoso C, Yamamoto LY, Preti EA, de Assis AM, Neves CSVJ, Roberto SR. [IBA and substrates on the rooting of fall cuttings of ‘Okinawa’ peach trees] Semina: Ciênc. Agrár. 2011 Oct;32(4):1307-14.] and acerola [¹⁶16. Mühlbeier DT, Koyama R, Chaves Junior OJ, Hussain I, Stenzel NMC, Roberto SR. Rooting of herbaceous cuttings of Malpighia emarginata DC (CAMB-06 and APU-04 selections) associated with the use of indolebutyric acid and liquid extract of Cyperus rotundus L. Rev. Bras. Frutic. 2020 Jan; 42(1): e-454.].

The so-called alternative materials, the substrates soil + manure (S+M) and vegetable soil (VS) did not differ from each other and were surpassed only by vermiculite. The results of the rooting rate of S + M and VS, on average, were considered relevant. This may be related to the good characteristics of these substrates such as porosity, neutral pH, and high levels of mineral nutrients, as shown in Table 2.

Regarding the root length, a significant difference was also observed between the types of cuttings, with an emphasis on herbaceous cuttings (Table 3). Herbaceous acerola cherry cuttings produced longer root lengths, showing the speed of the use of tissue reserves in the promotion of roots for other functions [³¹31. Braz VB, Couto FADA, Nunes ES, Alexandre RS. Adventitious rooting of west indian cherry under different nursery conditions. Ceres. 2015 Apr; 52(303): 633-45.].

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Table 3
Root length (cm) of the acerola cherry (Malpighia emarginata Sessé & Moc. Ex DC.) 'Andiroba' selection under the influence of different substrates and two maturity stages, at 60 days after installation of the experiment. São Luís, MA, 2017.

The substrates soil + manure and vegetable soil did not differ from vermiculite about the root lengths, proving to be suitable for this variable (Table 3). These results are relevant since they investigate lower-cost alternatives for seedling formation. In contrast [¹⁶16. Mühlbeier DT, Koyama R, Chaves Junior OJ, Hussain I, Stenzel NMC, Roberto SR. Rooting of herbaceous cuttings of Malpighia emarginata DC (CAMB-06 and APU-04 selections) associated with the use of indolebutyric acid and liquid extract of Cyperus rotundus L. Rev. Bras. Frutic. 2020 Jan; 42(1): e-454.] the use of substrates added with sugarcane bagasse and chicken manure did not prove to be effective on mulberry (Morus nigra L.) cuttings. The good porosity of vermiculite and other physical characteristics were offset by the high levels of organic matter and nutrients in the alternative substrates S + M and VS [²⁸28. Costa E, de Lima Silva PN, Ferreira AFA, da Rocha Silva AC, do Amaral Gomes V. [Rooting of acerola cutting: containers and substrates effects]. Agrarian. 2010 Aug;3(8):126-32., ¹⁹19. Ezekiel, A. Viable options and factors in consideration for low-cost vegetative propagation of tropical trees. Int J Botany. 2010 Jun; 6(2): 187-93.].

Four characteristics must be considered when choosing the substrate for cutting rooting: the ability to sustain cuttings and provide aeration, good moisture retention, and a dark environment at the base of the cutting [¹⁰10. Hartmann, HT, Kester, DE, Davies Jr, FT. Plant Propagation Principles and Practices. 5th ed. Prentice Hall: Eaglewood Cliffs; 1990. P. 232-3.].

The substrate vermiculite associated with herbaceous cuttings favored greater development of adventitious roots of acerola cherry cuttings. For rooting of fig (Ficus carica L.) observed a similar effect in quince (Cydonia oblonga M.) [¹⁸18. Hoffmann A, Nachtigal JC, Rossal PAL, Castro AD, Fachinello JC, Pauletto EA. [Influence of the substrate on the rooting of semi-hardwood fig and araçazeiro cuttings]. Rev. Bras. Frutic. 1994 Jan; 16(1): 302-7., ³²32. Giacobbo CL, Fachinello JC, Bianchi VJ. [Effect of substrate, indolebutyric acid and root grafting on the propagation of quince (Cydonia oblonga MILL.) cultivar EMC by cuttings]. Ciênc. Agrotec. 2007 Feb;31(1):64-70.]. This is probably due to the low apparent particle density, high porosity, neutral pH, and high moisture retention capacity found in this substrate.

Regarding the shoot length, the substrate vermiculite and S + M favored the development of acerola cherry cuttings, with average values of 6.46 cm and 6.01 cm, respectively. In contrast, the substrate plantmax had a shoot length lowest value (1.97 cm). It was observed that the herbaceous cuttings systematically showed a significantly higher average than the semi-hardwood ones. Therefore, they are the most suitable material for acerola cherry cuttings (Table 4).

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Table 4
Shoot length (cm) of the acerola cherry (Malpighia emarginata Sessé & Moc. Ex DC.) 'Andiroba' selection under the influence of different substrates and two maturity stages, at 60 days after installation of the experiment. São Luís, MA, 2017.

The development of the aerial part of cuttings of fruit seedlings may be related to the higher levels of carbohydrates present in the branches that served as an energy source for the development of the seedlings [¹⁰10. Hartmann, HT, Kester, DE, Davies Jr, FT. Plant Propagation Principles and Practices. 5th ed. Prentice Hall: Eaglewood Cliffs; 1990. P. 232-3.]. Parallel to the rooting, the cuttings emitted generalized shoots of branches with new leaves, a variable that did not differ statistically between the types of cuttings, as shown in Table 5. The largest number of leaves, regardless of the type of cutting, was observed in the soil + manure treatments and vegetable soil. The plantmax substrate provided fewer leaves for semi-hardwood cuttings and intermediate values for vermiculite.

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Table 5
Number of leaves of the acerola cherry (Malpighia emarginata Sessé & Moc. Ex DC.) 'Andiroba' selection under the influence of different substrates and two maturity stages, at 60 days after installation of the experiment. São Luís, MA, 2017.

Almeida and coauthors (2011) obtained similar results with castor seedlings (Ricinus communis L.) grown in substrates with the presence of goat manure [²¹21. Almeida JPN de, Dantas LLDGR, Pereira EC, da Silva Tosta M, de Medeiros PVQ. [Composition of alternative substrate with sunflower chapter in the production of papaya seedlings]. Rev. Verde. 2011 Jan./Mar;6(1):174-8.]. Sousa and coauthors (2000) reported that enriched manure substrate promotes better development of banana seedlings (Musa paradisiaca L.) due to the presence of nitrogen, which is essential for vegetative growth [³³33. Sousa HU de, Silva CRDRE, de Carvalho JG, Menegucci JLP. [Influence of substrates and application of simples superphosphate upon nutritional status of banana plantlets]. Ciênc. Agrotec. 2000 Dec; 24 (special edition): 64-73.].

CONCLUSION

The combination of vermiculite with herbaceous cuttings provided a higher rooting rate of the acerola cherry ‘Andiroba’ selection.

The alternative substrate composed of soil and tanned bovine manure showed promising results in the rooting rate, root formation, and vegetative development of the aerial part.

Acknowledgments

We acknowledge the infrastructure and technical support of Post-Harvest Laboratory of Maranhão State University - LAPOC.

REFERENCES

^1.
Ritzinger, R, Ritzinger, CHSP. [Acerola]. Infor. Agropec. 2011 Set/Out; 32 (264):17-25.
^2.
Ritzinger, R, Ritzinger, CHSP, Fonseca, N, Machado, C. D. F. Advances in the propagation of acerola. Rev. Bras. Frutic. 2017 Aug; 40(3): e-928. Doi: 10.1590/0100-29452018928.
» https://doi.org/10.1590/0100-29452018928.
^3.
IBGE. Censo Agro 2017 - [Acerola Brazil]. [Internet]. Rio de Janeiro, RJ: IBGE. 2017. [cited 2020 apr 30]. Available from:https://censoagro2017.ibge.gov.br/templates/censo_agro/resultadosagro/agricultura.html?localidade=0&tema=76215
» https://censoagro2017.ibge.gov.br/templates/censo_agro/resultadosagro/agricultura.html?localidade=0&tema=76215
^4.
Ritzinger R. [Acerola]. Ficha técnica. [Internet]. [place unknown: publisher unknown]. 2016. [cited 2020 apr 30] Available from: http://www.todafruta.com.br/acerola/>.
» http://www.todafruta.com.br/acerola
^5.
Freitas CAS de, Maia GA, Costa JMC da, Figueiredo RW de, Sousa, PHM de. [Acerola: production, composition,nutritional aspects and products]. Curr. Agric. Sci. Techn., 2006 Out/Dec; 12(4):395-400.
^6.
Almeida JPN de, Dantas LLDGR, Arrais IG, Silva Tosta, M de, Mendonça V. [Arbuscular mycorrhizal fungus and seaweed extract in the initial growth of acerola rootstock]. Rev. Cienc. Agrar. 2014 Jan/Mar; 57(1): 22-8.
^7.
Sousa ES, Lobo JT, Carreiro DA, Dias DN, Sanches LG, Cavalcante IHL. Paclobutrazol in the flowering management affects the quality of Malpighia emarginata fruits. Pesq. Agropec. Trop. 2020 Jul.; 50: e62805.
^8.
Franzão AA, Melo B. [The Barbados cherry culture] [Internet]. Uberlândia (MG): Núcleo de Estudo em Fruticultura no Cerrado. 2008. Available from: http://www.fruticultura.iciag.ufu.br/aceroleira.htm
» http://www.fruticultura.iciag.ufu.br/aceroleira.htm
^9.
Nepomuceno, C. [In vitro propagation and conservation of Martianthus leucocephalus (MART. Ex BENTH.) JFB PASTORE] [Doctor’s thesis]. Feira de Santana (BA): Universidade Estadual de Feira de Santana; 2012. 179 p.
^10.
Hartmann, HT, Kester, DE, Davies Jr, FT. Plant Propagation Principles and Practices. 5th ed. Prentice Hall: Eaglewood Cliffs; 1990. P. 232-3.
^11.
Faganello, L. R. [Vegetative propagation of Cordia trichotoma minicuttings as a function of auxins and collection times] [master’s thesis]. Marechal Rondon (PR): Universidade Estadual do Oeste do Paraná; 2012. 75 p.
^12.
Brandão RP, Nasser MD, Silva LSL, Oliveira LJ, Lundgren GA. [Scion of clays of acerola in commercial substrate and sand]. Colloq. Agrariae. 2020 Jan./Feb; 16(1): 43-47.
^13.
Fachinello JC, Hoffmann A, Nachtigal JC, Kersten E. [Vegetative propagation by cuttings]. In: Fachinello, JC et al. [Propagation on fruit plants]. 1st.ed. Brasília, D.: Embrapa Inf. Tecnolog.; 2005. P.69-109.
^14.
Oliveira, JD, Ferreira, FR. [Genetic improvement of passion fruit plant]. In: São José AR, Ferreira FR, Vaz RL. [The passion fruit culture in Brazil]. Jaboticabal: FUNEP. 1991. P. 211-239.
^15.
Dias, PC, de Oliveira, LS, Xavier, A, Wendling, I. [Cutting and mini-cutting techniques of Brazil wood species]. Pesq. Flor. Bras. 2012 Oct/Dec; 32(72):453-3.
^16.
Mühlbeier DT, Koyama R, Chaves Junior OJ, Hussain I, Stenzel NMC, Roberto SR. Rooting of herbaceous cuttings of Malpighia emarginata DC (CAMB-06 and APU-04 selections) associated with the use of indolebutyric acid and liquid extract of Cyperus rotundus L. Rev. Bras. Frutic. 2020 Jan; 42(1): e-454.
^17.
Roberto, SR, Paiolo, PAC. [Evaluation of techniques for ‘Dominga’ acerola softwood cuttings multiplication]. Semina: Ciênc. Agrár. 2002 Apr; 23(2): 165-72.
^18.
Hoffmann A, Nachtigal JC, Rossal PAL, Castro AD, Fachinello JC, Pauletto EA. [Influence of the substrate on the rooting of semi-hardwood fig and araçazeiro cuttings]. Rev. Bras. Frutic. 1994 Jan; 16(1): 302-7.
^19.
Ezekiel, A. Viable options and factors in consideration for low-cost vegetative propagation of tropical trees. Int J Botany. 2010 Jun; 6(2): 187-93.
^20.
Galeti, NCS, Cichelero, W, Munhoz, REF, Zonetti, PC. [Mulberry Cuttings Submitted to pre-treatments with water and different organic substrates]. Sci. Agrar. 2010 Nov/Dec; 11(6): 451-7.
^21.
Almeida JPN de, Dantas LLDGR, Pereira EC, da Silva Tosta M, de Medeiros PVQ. [Composition of alternative substrate with sunflower chapter in the production of papaya seedlings]. Rev. Verde. 2011 Jan./Mar;6(1):174-8.
^22.
Melo LAD, Pereira GDA, Moreira EJC, Davide AC, Silva EVD, Teixeira LAF. [Growth of Eucalyptus grandis and Eremanthus erythropappus seedlings under different substrate formulas]. FLORAM. 2014 Jun; 21:234-42.
^23.
Lima RDLSD, Siqueira DLD, Weber OB, Cazetta JO. [Size and part of the branch to be used as Barbados cherry cuttings]. Rev. Bras. Frutic. 2006 Apr; 28(1): 83-6.
^24.
Gontijo TCA, Ramos JD, Mendonça V, Pio R, Araújo Neto SED, Corrêa FLDO. [Rooting of different types of acerola cuttings using indol butiric acid]. Rev. Bras. Frutic. 2003 Aug; 25(2): 290-2.
^25.
Cardoso C, Yamamoto LY, Preti EA, de Assis AM, Neves CSVJ, Roberto SR. [IBA and substrates on the rooting of fall cuttings of ‘Okinawa’ peach trees] Semina: Ciênc. Agrár. 2011 Oct;32(4):1307-14.
^26.
Raij BV, Quaggio JA. [Soil analysis methods for fertility purposes]. Campinas (SP): Bol. Técn. IAC-81. 1983. 31 p.
^27.
Silva FAS. (2016). Assistat: Versão 7.7 beta [internet]. Campina Grande (PB): DEAG-CTRN-UFCG. Available from: http://www.assistat.com
» http://www.assistat.com
^28.
Costa E, de Lima Silva PN, Ferreira AFA, da Rocha Silva AC, do Amaral Gomes V. [Rooting of acerola cutting: containers and substrates effects]. Agrarian. 2010 Aug;3(8):126-32.
^29.
Paulus, D, Paulus, E. [Effect of agricultural substrates in the production of mint seedlings propagated through cuttings]. Hortic.bras. 2007 Dec; 25(4): 594-7.
^30.
Bonfim F, Casali VW, Valadares L, Freitas J, Marques G. [Influence of diferente types of cuttings and substrates on asexual propagation of horsetail (Equisetum arvense L.)]. Encicl. Biosf. 2011 Dec; 7(13):694-700.
^31.
Braz VB, Couto FADA, Nunes ES, Alexandre RS. Adventitious rooting of west indian cherry under different nursery conditions. Ceres. 2015 Apr; 52(303): 633-45.
^32.
Giacobbo CL, Fachinello JC, Bianchi VJ. [Effect of substrate, indolebutyric acid and root grafting on the propagation of quince (Cydonia oblonga MILL.) cultivar EMC by cuttings]. Ciênc. Agrotec. 2007 Feb;31(1):64-70.
^33.
Sousa HU de, Silva CRDRE, de Carvalho JG, Menegucci JLP. [Influence of substrates and application of simples superphosphate upon nutritional status of banana plantlets]. Ciênc. Agrotec. 2000 Dec; 24 (special edition): 64-73.

Funding:

This research received no external funding.

Edited by

Editor-in-Chief:

Bill Jorge Costa

Associate Editor:

Aline Alberti

Publication Dates

Publication in this collection
12 Jan 2024
Date of issue
2024

History

Received
21 June 2022
Accepted
21 Aug 2023

This is an open-access article distributed under the terms of the Creative Commons Attribution License

[1] ^1.
Ritzinger, R, Ritzinger, CHSP. [Acerola]. Infor. Agropec. 2011 Set/Out; 32 (264):17-25.

[2] ^2.
Ritzinger, R, Ritzinger, CHSP, Fonseca, N, Machado, C. D. F. Advances in the propagation of acerola. Rev. Bras. Frutic. 2017 Aug; 40(3): e-928. Doi: 10.1590/0100-29452018928.
» https://doi.org/10.1590/0100-29452018928.

[3] ^3.
IBGE. Censo Agro 2017 - [Acerola Brazil]. [Internet]. Rio de Janeiro, RJ: IBGE. 2017. [cited 2020 apr 30]. Available from:https://censoagro2017.ibge.gov.br/templates/censo_agro/resultadosagro/agricultura.html?localidade=0&tema=76215
» https://censoagro2017.ibge.gov.br/templates/censo_agro/resultadosagro/agricultura.html?localidade=0&tema=76215

[4] ^4.
Ritzinger R. [Acerola]. Ficha técnica. [Internet]. [place unknown: publisher unknown]. 2016. [cited 2020 apr 30] Available from: http://www.todafruta.com.br/acerola/>.
» http://www.todafruta.com.br/acerola

[5] ^5.
Freitas CAS de, Maia GA, Costa JMC da, Figueiredo RW de, Sousa, PHM de. [Acerola: production, composition,nutritional aspects and products]. Curr. Agric. Sci. Techn., 2006 Out/Dec; 12(4):395-400.

[6] ^6.
Almeida JPN de, Dantas LLDGR, Arrais IG, Silva Tosta, M de, Mendonça V. [Arbuscular mycorrhizal fungus and seaweed extract in the initial growth of acerola rootstock]. Rev. Cienc. Agrar. 2014 Jan/Mar; 57(1): 22-8.

[7] ^7.
Sousa ES, Lobo JT, Carreiro DA, Dias DN, Sanches LG, Cavalcante IHL. Paclobutrazol in the flowering management affects the quality of Malpighia emarginata fruits. Pesq. Agropec. Trop. 2020 Jul.; 50: e62805.

[8] ^8.
Franzão AA, Melo B. [The Barbados cherry culture] [Internet]. Uberlândia (MG): Núcleo de Estudo em Fruticultura no Cerrado. 2008. Available from: http://www.fruticultura.iciag.ufu.br/aceroleira.htm
» http://www.fruticultura.iciag.ufu.br/aceroleira.htm

[9] ^9.
Nepomuceno, C. [In vitro propagation and conservation of Martianthus leucocephalus (MART. Ex BENTH.) JFB PASTORE] [Doctor’s thesis]. Feira de Santana (BA): Universidade Estadual de Feira de Santana; 2012. 179 p.

[10] ^10.
Hartmann, HT, Kester, DE, Davies Jr, FT. Plant Propagation Principles and Practices. 5th ed. Prentice Hall: Eaglewood Cliffs; 1990. P. 232-3.

[11] ^11.
Faganello, L. R. [Vegetative propagation of Cordia trichotoma minicuttings as a function of auxins and collection times] [master’s thesis]. Marechal Rondon (PR): Universidade Estadual do Oeste do Paraná; 2012. 75 p.

[12] ^12.
Brandão RP, Nasser MD, Silva LSL, Oliveira LJ, Lundgren GA. [Scion of clays of acerola in commercial substrate and sand]. Colloq. Agrariae. 2020 Jan./Feb; 16(1): 43-47.

[13] ^13.
Fachinello JC, Hoffmann A, Nachtigal JC, Kersten E. [Vegetative propagation by cuttings]. In: Fachinello, JC et al. [Propagation on fruit plants]. 1st.ed. Brasília, D.: Embrapa Inf. Tecnolog.; 2005. P.69-109.

[14] ^14.
Oliveira, JD, Ferreira, FR. [Genetic improvement of passion fruit plant]. In: São José AR, Ferreira FR, Vaz RL. [The passion fruit culture in Brazil]. Jaboticabal: FUNEP. 1991. P. 211-239.

[15] ^15.
Dias, PC, de Oliveira, LS, Xavier, A, Wendling, I. [Cutting and mini-cutting techniques of Brazil wood species]. Pesq. Flor. Bras. 2012 Oct/Dec; 32(72):453-3.

[16] ^16.
Mühlbeier DT, Koyama R, Chaves Junior OJ, Hussain I, Stenzel NMC, Roberto SR. Rooting of herbaceous cuttings of Malpighia emarginata DC (CAMB-06 and APU-04 selections) associated with the use of indolebutyric acid and liquid extract of Cyperus rotundus L. Rev. Bras. Frutic. 2020 Jan; 42(1): e-454.

[17] ^17.
Roberto, SR, Paiolo, PAC. [Evaluation of techniques for ‘Dominga’ acerola softwood cuttings multiplication]. Semina: Ciênc. Agrár. 2002 Apr; 23(2): 165-72.

[18] ^18.
Hoffmann A, Nachtigal JC, Rossal PAL, Castro AD, Fachinello JC, Pauletto EA. [Influence of the substrate on the rooting of semi-hardwood fig and araçazeiro cuttings]. Rev. Bras. Frutic. 1994 Jan; 16(1): 302-7.

[19] ^19.
Ezekiel, A. Viable options and factors in consideration for low-cost vegetative propagation of tropical trees. Int J Botany. 2010 Jun; 6(2): 187-93.

[20] ^20.
Galeti, NCS, Cichelero, W, Munhoz, REF, Zonetti, PC. [Mulberry Cuttings Submitted to pre-treatments with water and different organic substrates]. Sci. Agrar. 2010 Nov/Dec; 11(6): 451-7.

[21] ^21.
Almeida JPN de, Dantas LLDGR, Pereira EC, da Silva Tosta M, de Medeiros PVQ. [Composition of alternative substrate with sunflower chapter in the production of papaya seedlings]. Rev. Verde. 2011 Jan./Mar;6(1):174-8.

[22] ^22.
Melo LAD, Pereira GDA, Moreira EJC, Davide AC, Silva EVD, Teixeira LAF. [Growth of Eucalyptus grandis and Eremanthus erythropappus seedlings under different substrate formulas]. FLORAM. 2014 Jun; 21:234-42.

[23] ^23.
Lima RDLSD, Siqueira DLD, Weber OB, Cazetta JO. [Size and part of the branch to be used as Barbados cherry cuttings]. Rev. Bras. Frutic. 2006 Apr; 28(1): 83-6.

[24] ^24.
Gontijo TCA, Ramos JD, Mendonça V, Pio R, Araújo Neto SED, Corrêa FLDO. [Rooting of different types of acerola cuttings using indol butiric acid]. Rev. Bras. Frutic. 2003 Aug; 25(2): 290-2.

[25] ^25.
Cardoso C, Yamamoto LY, Preti EA, de Assis AM, Neves CSVJ, Roberto SR. [IBA and substrates on the rooting of fall cuttings of ‘Okinawa’ peach trees] Semina: Ciênc. Agrár. 2011 Oct;32(4):1307-14.

[26] ^26.
Raij BV, Quaggio JA. [Soil analysis methods for fertility purposes]. Campinas (SP): Bol. Técn. IAC-81. 1983. 31 p.

[27] ^27.
Silva FAS. (2016). Assistat: Versão 7.7 beta [internet]. Campina Grande (PB): DEAG-CTRN-UFCG. Available from: http://www.assistat.com
» http://www.assistat.com

[28] ^28.
Costa E, de Lima Silva PN, Ferreira AFA, da Rocha Silva AC, do Amaral Gomes V. [Rooting of acerola cutting: containers and substrates effects]. Agrarian. 2010 Aug;3(8):126-32.

[29] ^29.
Paulus, D, Paulus, E. [Effect of agricultural substrates in the production of mint seedlings propagated through cuttings]. Hortic.bras. 2007 Dec; 25(4): 594-7.

[30] ^30.
Bonfim F, Casali VW, Valadares L, Freitas J, Marques G. [Influence of diferente types of cuttings and substrates on asexual propagation of horsetail (Equisetum arvense L.)]. Encicl. Biosf. 2011 Dec; 7(13):694-700.

[31] ^31.
Braz VB, Couto FADA, Nunes ES, Alexandre RS. Adventitious rooting of west indian cherry under different nursery conditions. Ceres. 2015 Apr; 52(303): 633-45.

[32] ^32.
Giacobbo CL, Fachinello JC, Bianchi VJ. [Effect of substrate, indolebutyric acid and root grafting on the propagation of quince (Cydonia oblonga MILL.) cultivar EMC by cuttings]. Ciênc. Agrotec. 2007 Feb;31(1):64-70.

[33] ^33.
Sousa HU de, Silva CRDRE, de Carvalho JG, Menegucci JLP. [Influence of substrates and application of simples superphosphate upon nutritional status of banana plantlets]. Ciênc. Agrotec. 2000 Dec; 24 (special edition): 64-73.

Substrate	OM	pH	P¹	K⁺	Ca²⁺	Mg²⁺	H⁺+Al³⁺	Al⁺	H⁺	C
	g dm^-3	CaCl₂	mg dm^-3	-------------------------mmol_c dm^-3-----------------------------					g dm^-3
Vermiculite	4	7.9	6	5.9	7	122	8.0	0.0	8	2.5
Plantmax	66	8.2	129	25.6	210	119	6.1	0.10	6	38.0
Soil + Manure	61	7.2	334	48.2	30	89	12.1	0.10	12	35.4
Vegetable Soil	39	8.0	137	11.9	46	73	8.0	0.0	8	22.8

Cutting type	Substrates				Cutting mean
Cutting type	MV	PL	S+M	VS
Herbaceous	95.0	47.5	72.5	70.0	71,25 a
Semi - woody	77.5	7.5	65.0	52.5	50,62 b
Substrate mean	86.2 A	27.5 C	68.7 B	61.2 B

Cutting type	Substrates				Cutting mean
Cutting type	MV	PL	S+M	VS
Herbaceous	6.02	3.38	4.75	4.43	4.65 a
Semi - woody	4.58	0.11	3.87	3.55	3.03 b
Substrate mean	5.31 A	1.75 B	4.31 A	3.99 A

Cutting type	Substrates				Cutting mean
Cutting type	MV	PL	S+M	VS
Herbaceous	7.12	3.65	6.40	5.45	5.65 a
Semi - woody	5.81	0.30	5.63	3.96	3.92 b
Substrate mean	6.46 A	1.97 C	6.01 AB	4.70 B

Cutting type	Substrates				Cuttin mean
Cutting type	MV	PL	S+M	VS
Herbaceous	2.50	1.95	5.70	3.75	3.47 a
Semi - woody	4.00	0.07	5.97	4.10	3.53 a
Substrate mean	3.25 B	1.01 C	5.83 A	3.92 AB

Brasil

Brasil

Association between Cuttings Maturity and Alternative Substrates in the Rooting of Acerola Cherry

Abstract

HIGHLIGHTS

INTRODUCTION

MATERIAL AND METHODS

Collection of cuttings and substrate preparation

Conducting the experiment

Parameters evaluated

Statistical analysis

RESULTS

CONCLUSION

Acknowledgments

REFERENCES

Funding:

Edited by

Editor-in-Chief:

Associate Editor:

Publication Dates

History