Abstract:

Passiflora actinia Hooker is a passion fruit species native to Brazil, typically found in the Atlantic and Araucaria Forests. It has economic relevance (edible fruit) and medicinal value (sedative and anxiolytic properties), in addition to being used for vegetative propagation, as rootstock for other Passiflora species. This study aimed at investigating the occurrence of dormancy in P. actinia seeds, and at evaluating their storage potential. The germination test considered different combinations of temperature and lighting regimes, whereas seed dormancy was assessed using different germination-inducing treatments (tegument cutting, warm water immersion, and gibberellin application). Seed viability during storage was also appraised. The results showed that seed germination should be conducted on paper at the alternating temperature of 20-30 °C, without lighting. Also, newly-harvested seeds presented physical and physiological dormancies. The immersion of seeds in water at 40 °C or 50 °C (for 5 or 10 minutes) proved to be efficient in breaking the physical dormancy. Physiological dormancy, in turn, was successfully interrupted by applying 100 mg. L^-1 of gibberellic acid on the substrate paper. The storage of seeds under refrigeration, inside hermetically sealed polyethylene packaging, preserved their physiological quality for up to nine months.

Index terms:
Passiflora actinia; fruit-bearing species; germination; gibberellin; propagation

Resumo:

Passiflora actinia Hooker é uma espécie nativa de maracujazeiro, típica da Mata Atlântica e da Mata com Araucária, que apresenta valores econômico (fruto comestível), medicinal (atividades sedativa e ansiolítica), além de ser usada em propagação vegetativa (porta-enxerto para outras espécies de Passiflora). Este trabalho teve por objetivos investigar a existência de dormência em sementes de P. actinia e avaliar o potencial de armazenamento destas. O teste de germinação foi conduzido por meio de combinações de temperatura e regimes de luz, enquanto a presença de dormência foi investigada através de diferentes tratamentos para promoção da germinação (corte no tegumento, imersão em água quente e aplicação de giberelina). Analisou-se, também, a viabilidade das sementes durante o armazenamento. Neste caso, o teste de germinação de sementes foi feito sobre papel, a 20-30 °C, sem o fornecimento de luz. Sementes recém-colhidas apresentaram dormência física e fisiológica. Os tratamentos com imersão das sementes em água a 40 °C ou 50 °C (5 ou 10 minutos) foram efetivos para quebrar a dormência física. A dormência fisiológica pôde ser superada com a aplicação de 100 mg. L^-1 de ácido giberélico sobre o substrato de papel. O armazenamento em refrigerador, dentro de embalagens de polietileno hermeticamente fechadas, preservou a qualidade fisiológica por até nove meses.

Termos para indexação:
Passiflora actinia; espécie frutífera; germinação; giberelina; propagação

Introduction

Passiflora actinia Hooker, popularly known as yellow passion fruit, is a heliophile plant, native to Brazilian dense ombrophilous forest and mixed forest (the Atlantic and Araucaria Forests, respectively). It is typically found in the states of Espírito Santo, Rio de Janeiro, São Paulo, Paraná, Santa Catarina, and Rio Grande do Sul (Cervi et al., 2009CERVI, A.C.; HATSCHBACH, G.G.; LISINGEN, L.V. Composição florística de um trecho de floresta ombrófila densa de terras baixas (floresta atlântica) na reserva ecológica de Sapitanduva. Fontqueria, v.55, p.423-438, 2009. https://dialnet.unirioja.es/descarga/articulo/2217558.pdf
https://dialnet.unirioja.es/descarga/art... ), inhabiting both the inner part as well as the edges of the forests, where it grows until its branches reach the highest strata, in order to get direct sunlight (Mondin et al., 2011MONDIN, C.A.; CERVI, A.C.; MOREIRA, G.R.P. Sinopse das espécies de Passiflora L. (Passifloraceae) do Rio Grande do Sul, Brasil. Revista Brasileira de Biociência, v.9, p.3-27, 2011. http://www.ufrgs.br/seerbio/ojs/index.php/rbb/article/view/1820/1012
http://www.ufrgs.br/seerbio/ojs/index.ph... ).

The yellow passion fruit has economic value, as it is edible, and can also be employed for ornamental purposes. The yield per plant is expressive, and the fruits are filled with a flavorful pulp. In folk medicine, the leaves serve as the base for sedative and anxiolytic concoctions (Kurtz et al., 2003KURTZ, S.M.T.F.; SANTOS, C.A.M.; DUARTE, M.R.; SATO, M.E.O. Morfo-anatomia de folhas de maracujá: Passiflora actinia Hooker, Passifloraceae. Acta Farmacêutica Bonaerense, v.22, n.2, p.105-112, 2003. http://www.latamjpharm.org/trabajos/22/2/LAJOP_22_2_1_2_TEQVLXBW34.pdf
http://www.latamjpharm.org/trabajos/22/2... ), and they recently proved to bear neuropharmacological properties (Santos et al., 2016SANTOS, K.C.; BORGES, T.V.; OLESCOWICZ, G.; LUDKA, F.K.; SANTOS, C.A.D.; MOLZ, S. Passiflora actinia hydroalcoholic extract and its major constituent, isovitexin, are neuroprotective against glutamate-induced cell damage in mice hippocampal slices. Journal of Pharmacy and Pharmacology, v.68, p.282-291, 2016. https://onlinelibrary.wiley.com/doi/epdf/10.1111/jphp.12512
https://onlinelibrary.wiley.com/doi/epdf... ). Additionally, as it is more tolerant to low temperatures, it can be used as rootstock for Passiflora alata Curtis and Passiflora quadrangularis L., (Lima et al., 2007LIMA, D.M.; ALCANTARA, G.B.; FOGAÇA, L.A.; QUOIRIN, M.; CUQUEL, F.L.; BIASI, L.A. Influência de estípulas foliáceas e do número de folhas no enraizamento de estacas semilenhosas de maracujazeiro amarelo nativo. Acta Scientiarum Agronomy, v.29, p.671-676, 2007. http://www.scielo.br/pdf/asagr/v29sspe/a12.pdf
http://www.scielo.br/pdf/asagr/v29sspe/a... ). Nevertheless, despite its enormous potential, the species has been threatened by the progression of deforestation in native areas. Thus, preserving it in seedbanks is imperative to protect the species and to promote its sexual propagation (Teixeira et al., 2016TEIXEIRA, M.C.; MADER, G.; SILVA-ARIAS, G.; BONATTO, S.L.; FREITAS, L.B. Effects of past climate on Passiflora actinia (Passifloraceae) populations and insights into future species management in the Brazilian Atlantic forest. Botanical Journal of the Linnean Society, v.180, n.3, p.348-364, 2016. https://onlinelibrary.wiley.com/doi/10.1111/boj.12375
https://onlinelibrary.wiley.com/doi/10.1... ).

Basic genetic research approaching populational aspects and breeding programs are still scarce for the majority of Passiflora species (Cerqueira-Silva et al., 2014CERQUEIRA-SILVA, C.B.M.; JESUS, O.N.; SANTOS, E.S.L.; CORRÊA, R.X.; SOUZA, A.P. Genetic breeding and diversity on the genus Passiflora: Progress and perspectives in molecular and genetics studies. International Journal of Molecular Sciences, v.15, p.14122-14152, 2014. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4159842/
https://www.ncbi.nlm.nih.gov/pmc/article... ). Seeds of P. actinia - as well as those of other indigenous representatives of the genus - might exhibit dormancy, once they have not undergone genetic selection to annul such impediment. Therefore, it might be an obstacle for large-scale seedling production, and researches on the type of dormancy and possible treatments for promoting germination are crucial for further commercial use.

As for the mechanisms through which this phenomenon occurs, the following two are most significant: embryo dormancy (endogenous) and dormancy imposed by the outer layers of the seed (exogenous). The first one includes the cases of metabolic inhibition and immature embryos, and it is divided into physiological, morphological, and morphophysiological (Cardoso, 2009CARDOSO, V.J.M. Conceito e classificação da dormência em sementes. Oecologia Brasiliensis, v.13, p.619-630, 2009. https://repositorio.unesp.br/bitstream/handle/11449/71375/2-s2.0-74949106738.pdf?sequence=1&isAllowed=y
https://repositorio.unesp.br/bitstream/h... ).

Plant growth regulators are commonly used to overcome physiological dormancy. The gibberellic acid (GA₃) is one of these compounds, and it is applied to the outside of seeds to stimulate germination (Shu et al., 2016SHU, K.; LIU, X.D.; XIE, Q.; HE, Z.H. Two faces of one seed: hormonal regulation of dormancy and germination. Molecular Plant, v.9, n.1, p.34-45, 2016. https://www-sciencedirect.ez22.periodicos.capes.gov.br/science/article/pii/S1674205215003561?via=ihub
https://www-sciencedirect.ez22.periodico... ). It acts primarily on the gene expression of hydrolytic enzymes responsible for weakening the tegument (Taiz et al., 2017TAIZ, L.; ZEIGER, E.; MOLLER, J.M.; MURPHY, A. Fisiologia e desenvolvimento vegetal. 6.ed. Porto Alegre: Artmed, 2017. 858p.) and for degrading reserve substances (Rego et al., 2018REGO, C.H.Q.; CARDOSO, F.B.; COTRIM, M.F.; CÂNDIDO, A.C.S.; ALVES, C.Z. Ácido giberélico auxilia na superação da dormência fisiológica e expressão de vigor das sementes de graviola. Revista de Agricultura Neotropical, v.5, n.3, p.83-86, 2018. https://periodicosonline.uems.br/index.php/agrineo/article/view/2354/2340
https://periodicosonline.uems.br/index.p... ). These conditions allow the embryo to retake its growth and break the dormancy (Castro et al., 2005CASTRO, P.R.C.; KLUGE, R.A.; PERES, L.E.P. Manual de fisiologia vegetal: teoria e prática. Piracicaba: Agronômica Ceres, 2005. 640p.).

On that account, treatments with GA₃ have been suggested to tackle the physiological dormancy of several Passiflora species, including P. cincinnata Mast. (Zucareli et al., 2009ZUCARELI, V.; FERREIRA, G.; AMARO, A.C.E.; ARAÚJO, F.P. Fotoperíodo, temperatura e reguladores vegetais na germinação de sementes de Passiflora cincinnata Mast. Revista Brasileira de Sementes , v.31, n.3, p.106-114, 2009. http://www.scielo.br/pdf/rbs/v31n3/a12v31n3.pdf
http://www.scielo.br/pdf/rbs/v31n3/a12v3... ; Moura et al., 2018MOURA, R.S.; COELHO-FILHO, M.A.; GHEYI, H.R.; JESUS, O.N.; LIMA, L.K.S.; JUNGHANS, T.G. Overcoming dormancy in stored and recently harvested Passiflora cincinnata Mast. seeds. Bioscience Journal, v.34, n.5, p.1158-1166, 2018.https://doi.org/10.14393/BJ-v34n5a2018-39451
https://doi.org/10.14393/BJ-v34n5a2018-3... ), P. ligularis (Cadorin et al., 2017CADORIN, D.A.; VILLA, F.; DALASTRA, G.M.; HEBERLE, K.; ROTILI, M.C.C. Pre-germination treatment in granadilha (Passiflora ligularis) seeds. Revista de Ciências Agroveterinárias, v.16, n.3, p.256-261, 2017. http://revistas.udesc.br/index.php/agroveterinaria/article/view/223811711632017256/pdf
http://revistas.udesc.br/index.php/agrov... ), P. caerulea (Hossel et al., 2018HOSSEL, C.; HOSSEL, J.S.A.O.; WAGNER-JÚNIOR, A.; ALEGRETTI, A.L.; DALLAGO, A. Temperaturas e giberelina na germinação de sementes de Passiflora caerulea. Pesquisa Aplicada e Agrotecnologia, v.11, n.1, p.93-98, 2018. https://revistas.unicentro.br/index.php/repaa/article/download/4704/3632
https://revistas.unicentro.br/index.php/... ), P. edulis f. flavicarpa (Lima et al., 2009LIMA, C.S.M.; BETEMPS, D.L.; TOMAZ, Z.F.P.; GALARÇA, S.P.; RUFATO, A.R.R. Germinação de sementes e crescimento de maracujá em diferentes concentrações do ácido giberélico, tempos de imersão e condições experimentais. Revista Brasileira de Agrociência, v.15, n.1-4, p.43-48, 2009. https://periodicos.ufpel.edu.br/ojs2/index.php/CAST/article/view/1985
https://periodicos.ufpel.edu.br/ojs2/ind... ; Cárdenas et al., 2013CÁRDENAS, J.; CARRANZA, C.; MIRANDA, D.; MAGNITSKIY, S. Effect of GA3, KNO3, and removing of basal point of seeds germination of sweet granadilla (Passiflora ligularis Juss) and yellow passion fruit (Passiflora edulis F. Flavicarpa). Revista Brasileira de Fruticultura, v.35, n.3, p.853-859, 2013. http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0100-29452013000300023
http://www.scielo.br/scielo.php?script=s... ), P. suberosa, P. morifolia, and P. tenuifila (Marostega et al., 2017MAROSTEGA, T.N.; LUZ, P.B.; TAVARES, A.R.; NEVES, L.G.; SOBRINHO, S.P. Methods of breaking seed dormancy for ornamental passion fruit species. Ornamental Horticulture, v.23, n.1, p.72-78, 2017. https://ornamentalhorticulture.emnuvens.com.br/rbho/article/view/982/697
https://ornamentalhorticulture.emnuvens.... ). Different doses of this plant regulator are used, as seed dormancy is linked to the genotype (Santos et al., 2015SANTOS, C.E.M.; MORGADO, M.A.D.O.; MATIAS, R.G.P.; WAGNER-JÚNIOR, A.; BRUCKNER, C.H. Germinação e emergência de sementes de maracujá-azedo (Passiflora edulis) obtidos por polinização aberta e autopolinização.Acta Scientiarum. Agronomy, v.37, n.4, p.489-493, 2015. http://www.scielo.br/pdf/asagr/v37n4/1807-8621-asagr-37-04-00489.pdf
http://www.scielo.br/pdf/asagr/v37n4/180... ).

Conversely, the exogenous dormancy is caused by tissues of the seed itself (extraembryonic), such as the tegument or parts of the fruit, and it can be associated to physical, mechanical, and chemical factors. Physical dormancy, specifically, is caused by the impermeable character of the tegument of both seeds and fruit, which totally or partially restricts water diffusion to the embryo. The literature on Passiflora seeds contain some promising treatments against it, which include the use of potassium nitrate (KNO₃) at 1%, for P. eichleriana, scarification with sandpaper, for P. micropetala (Marostega et al., 2017MAROSTEGA, T.N.; LUZ, P.B.; TAVARES, A.R.; NEVES, L.G.; SOBRINHO, S.P. Methods of breaking seed dormancy for ornamental passion fruit species. Ornamental Horticulture, v.23, n.1, p.72-78, 2017. https://ornamentalhorticulture.emnuvens.com.br/rbho/article/view/982/697
https://ornamentalhorticulture.emnuvens.... ), and scarification with sandpaper and water bath at 50 ºC for 5 minutes, for P. cincinnata (Oliveira-Júnior et al., 2010OLIVEIRA-JÚNIOR, M.X.; JOSÉ, A.R.S.; REBOUÇAS, T.N.H.; MORAIS, O.M.; DOURADO, F.W.N. Superação de dormência de maracujá-do-mato (Passiflora cincinnata Mast.). Revista Brasileira de Fruticultura , v.32, n.2, p.584-590, 2010. http://www.scielo.br/pdf/rbf/v32n2/aop4710.pdf
http://www.scielo.br/pdf/rbf/v32n2/aop47... ).

It is worth mentioning that a single species can present different forms and levels of dormancy. Cases in which more than one type occur are known as complex dormancy, and they have been observed in P. mollissima and P. nov sp. (Delanoy et al., 2006DELANOY, M.; DAMME, P.V.; SCHELDEMAN, X.; BELTRAN, J. Germination of Passiflora mollissima (Kunth) L.H.Bailey, Passiflora tricuspis Mast. and Passiflora nov sp. seeds. Scientia Horticulturae, v.110, n.2, p.198-203, 2006. https://www.sciencedirect.com/science/article/pii/S0304423806002858
https://www.sciencedirect.com/science/ar... ).

The present work aimed at investigating the occurrence of both physical and physiological dormancies in seeds of P. actinia. Their storage potential was withal assessed.

Material and Methods

The plant material was gathered from P. actinia individuals cultivated in the experimental area of the Agricultural Sciences Sector of the Universidade Federal do Paraná, in Curitiba. This species has simple, alternate leaves (Figure 1A), which have entire and ovate blades, entire edges, obtuse apex, and rounded base. The leaf surface is subcoriaceous textured, completely glabrous, and discolor, with the adaxial side exhibiting a green hue (Kurtz et al., 2003KURTZ, S.M.T.F.; SANTOS, C.A.M.; DUARTE, M.R.; SATO, M.E.O. Morfo-anatomia de folhas de maracujá: Passiflora actinia Hooker, Passifloraceae. Acta Farmacêutica Bonaerense, v.22, n.2, p.105-112, 2003. http://www.latamjpharm.org/trabajos/22/2/LAJOP_22_2_1_2_TEQVLXBW34.pdf
http://www.latamjpharm.org/trabajos/22/2... ). The P. actinia flower is lush white and has a corona composed of purple-white striped filaments, arranged in five series. They assume a reddish color near their base, which attracts pollinating agents (Figure 1B).

In order to obtain the seeds, yellow-rind fruits (Figure 1C) with translucent-yellowish pulp (Figure 1D) were harvested - these characteristics qualified them as ripe. They had their content manually removed, and the seeds were separated from the fleshy part by rubbing them against a sieve (Figure 1E). They were then washed under running water and let to drying in ambient laboratory conditions for seven days. After that, the seeds were once again processed with the aid of the sieve, until the total removal of the aril.

For the germination tests, combinations of four temperatures (20, 25, 20-30 and 30 °C) and two light regimes (with or without continuous supply) were considered. The seeds were sown over blotting-paper sheets placed inside plastic boxes (11.0 x 11.0 x 3.5 cm). The paper had been previously moistened with water at the quantity of 2.5 times the dry substrate weight. The normal seedlings were counted periodically, until steady germination, and the results were expressed in percentage.

The interruption of physical dormancy was evaluated following the procedures described in Rules for Seed Testing (Brasil, 2009BRASIL. Ministério da Agricultura, Pecuária e Abastecimento. Regras para análise de sementes. Ministério da Agricultura, Pecuária e Abastecimento. Secretaria de Defesa Agropecuária. Brasília, DF: MAPA/ACS, 2009. 395p.). In this case, the following treatments were appraised: control; seeds cross-cut at the region opposite to the embryonic axis (Figure 1F); seeds immersed in water for 24 hours (with and without the cross-cut); seeds immersed in water at 40 °C (for 5 or 10 minutes); and seeds immersed in water at 50 ºC (for 5 or 10 minutes).

The breakage of physiological dormancy was assessed using two forms of gibberellic acid administration: imbibition, via immersion of the seeds in a GA₃ solution for 5 hours; or moistening, by laying them over blotting-paper sheets soaked with a GA₃ solution at the proportion of 2.5 times the dry substrate weight. In both methods, the GA₃ concentrations of zero (water), 100, 200, 300, 400 and 500 mg.L^-1 were tested.

After the germination-inducing treatments had been applied, the yellow passion fruit seeds were placed over blotting-paper sheets, inside plastic boxes (11.0 x 11.0 x 3.5 cm). Next, they were kept at alternating temperatures of 20-30 °C, without light. Emerged normal seedlings (Figure 1G) were periodically counted, until germination become stable. Together with the germination test, the germination speed index (GSI) was withal calculated, according to the guidelines of Maguire (1962MAGUIRE, J.D. Speed of germination aid in selection and evaluation for seedling emergence and vigor. Crop Science, v.2, p.76-177, 1962.).

The storage potential of the seeds was evaluated by stowing them in hermetically sealed polyethylene packages, which were maintained under two conditions: refrigeration (at 7.3-8.5 °C and 49-52% RH) or laboratory ambient (at 19.6-23.1 °C and 53-62% RH). Seed physiological quality was gauged after zero, three, and nine months of storage, via germination and vigor (germination speed index) tests, carried out over paper, at 20-30 ºC, in the absence of light.

The evaluation of both physiological and physical dormancy complied with a completely randomized design, with four replications. The data gathered were subjected to analysis of variance, and the means were compared by the Scott-Knott’s test (p ≤ 0.05). When significant differences were detected, a regression model with the best trend fit to the GA₃ concentration curve (physiological dormancy) was applied. In turn, the germination study followed a completely randomized design with a factorial scheme (temperature x light regime), whereas the storage potential was tackled in subdivided parcels, with four replications, having the means been contrasted by the Tukey’s test (p ≤ 0.05).

Results and Discussion

The germination test conducted without any promoting treatment revealed that the combination of the alternating temperature of 20-30 ºC and absence of light accounted for the highest percentage of normal seedling emergence (Table 1), which reached 60%. A similar result was found for the germination speed index (Table 1), confirming that this treatment promoted the best seed performance.

In studies with other Passiflora species (namely, P. alata Dryander, P. cincinnata Mast., P. edulis, and P. ligularis), the alternating temperature of 20-30 °C resulted in a high germination percentage (Osipi and Nakagawa, 2005OSIPI, E.A.F.; NAKAGAWA, J. Efeito da temperatura na avaliação da qualidade fisiológica de sementes do maracujá-doce (Passiflora alata Dryander). Revista Brasileira de Fruticultura , v.27, n.1, p.179-181, 2005. http://www.scielo.br/pdf/rbf/v27n1/24597.pdf
http://www.scielo.br/pdf/rbf/v27n1/24597... ; Zucareli et al., 2009ZUCARELI, V.; FERREIRA, G.; AMARO, A.C.E.; ARAÚJO, F.P. Fotoperíodo, temperatura e reguladores vegetais na germinação de sementes de Passiflora cincinnata Mast. Revista Brasileira de Sementes , v.31, n.3, p.106-114, 2009. http://www.scielo.br/pdf/rbs/v31n3/a12v31n3.pdf
http://www.scielo.br/pdf/rbs/v31n3/a12v3... ; Cadorin et al., 2017CADORIN, D.A.; VILLA, F.; DALASTRA, G.M.; HEBERLE, K.; ROTILI, M.C.C. Pre-germination treatment in granadilha (Passiflora ligularis) seeds. Revista de Ciências Agroveterinárias, v.16, n.3, p.256-261, 2017. http://revistas.udesc.br/index.php/agroveterinaria/article/view/223811711632017256/pdf
http://revistas.udesc.br/index.php/agrov... ; Torres-G, 2018TORRES-G., A.M. Seed dormancy and germination of two cultivated species of passifloraceae. Boletín Científico Museo Historia Natural, v.22, n.1, p.15-27, 2018. http://www.scielo.org.co/pdf/bccm/v22n1/0123-3068-bccm-22-01-00015.pdf
http://www.scielo.org.co/pdf/bccm/v22n1/... ). This condition also led to a high germination speed index, in P. incarnata L. (Zucareli et al., 2015ZUCARELI, V.; HENRIQUE, L.A.V.; ONO, E.O. Influence of light and temperature on the germination of Passiflora incarnata L. seeds. Journal of Seed Science , v.37, n.2, p.162-167, 2015. http://www.scielo.br/pdf/jss/v37n2/2317-1537-jss-37-02-00162.pdf
http://www.scielo.br/pdf/jss/v37n2/2317-... ), and to an expressive seedling emergence, in various cultivars of P. edulis (Souto et al., 2017SOUTO, A.G.L.; COSTA, J.C.F.; CAMPOS, N.L.F.; AZEVEDO, J.L.F.; SANTOS, C.E.M. Effect of temperature on passion fruit emergence and seedling vigor. Journal of Seed Science , v.39, n.1, p.50-57, 2017. http://www.scielo.br/pdf/jss/v39n1/2317-1545-jss-39-01-00050.pdf
http://www.scielo.br/pdf/jss/v39n1/2317-... ). As pointed by Brancalion et al. (2010BRANCALION, P.H.S.; NOVEMBRE, A.D.L.C.; RODRIGUES, R.R.Temperatura ótima de germinação de sementes de espécies arbóreas brasileiras. Revista Brasileira de Sementes, v.32, n.4, p.15-21, 2010. http://www.scielo.br/pdf/rbs/v32n4/02.pdf
http://www.scielo.br/pdf/rbs/v32n4/02.pd... ), a routine of alternating temperatures might help in breaking both physical and physiological seed dormancies.

It could also be verified that the lowest germination percentages were obtained at 30 ºC (Table 1). Such outcome is possibly related to the fact that the species is native to subtropical regions, thus it does not endure hot temperatures - the alternating ones used in this research are actually closer to those of its natural habitat.

The assays with P. actinia additionally showed that, despite germinating under light, this species scored higher values of seedling emergence and speed index when kept in the dark. The absence of a lighting supply also triggered a better performance of other representatives of the genus, such as P. incarnata L. (Zucareli et al., 2015ZUCARELI, V.; HENRIQUE, L.A.V.; ONO, E.O. Influence of light and temperature on the germination of Passiflora incarnata L. seeds. Journal of Seed Science , v.37, n.2, p.162-167, 2015. http://www.scielo.br/pdf/jss/v37n2/2317-1537-jss-37-02-00162.pdf
http://www.scielo.br/pdf/jss/v37n2/2317-... ), P. cincinnata (Zucareli et al., 2009ZUCARELI, V.; FERREIRA, G.; AMARO, A.C.E.; ARAÚJO, F.P. Fotoperíodo, temperatura e reguladores vegetais na germinação de sementes de Passiflora cincinnata Mast. Revista Brasileira de Sementes , v.31, n.3, p.106-114, 2009. http://www.scielo.br/pdf/rbs/v31n3/a12v31n3.pdf
http://www.scielo.br/pdf/rbs/v31n3/a12v3... ), and P. edulis (Ribeiro et al., 2017RIBEIRO, M.R.; SOUTO, A.G.D.; MAITAN, M.Q.; XAVIER, B.D.; ROSADO, L.D.S.; SANTOS, C.E.M. Luminosity and sowing depth in the emergence and development of passion fruit seedlings. Journal of Seed Science, v.39, n.3, p.311-317, 2017. http://www.scielo.br/pdf/jss/v39n3/2317-1545-jss-39-03-00311.pdf
http://www.scielo.br/pdf/jss/v39n3/2317-... ).

Table 2 contains the variables tested to assess physical dormancy of yellow passion fruit seeds. The control exhibited a 72% germination rate in the experiment carried out at 20-30 ºC, without light supply. However, this number was significantly upgraded when the seeds were soaked in water at 40 ºC or 50 ºC, for either 5 or 10 minutes. In those conditions, normal seedling emergence achieved 81% and 88%, indicating the existence of dormancy. As for the germination speed index, the hot-water immersions also proved to be efficient, which corroborates previous works with P. edulis (Torres-G, 2018TORRES-G., A.M. Seed dormancy and germination of two cultivated species of passifloraceae. Boletín Científico Museo Historia Natural, v.22, n.1, p.15-27, 2018. http://www.scielo.org.co/pdf/bccm/v22n1/0123-3068-bccm-22-01-00015.pdf
http://www.scielo.org.co/pdf/bccm/v22n1/... ) and P. cincinnata (Oliveira-Júnior et al., 2010OLIVEIRA-JÚNIOR, M.X.; JOSÉ, A.R.S.; REBOUÇAS, T.N.H.; MORAIS, O.M.; DOURADO, F.W.N. Superação de dormência de maracujá-do-mato (Passiflora cincinnata Mast.). Revista Brasileira de Fruticultura , v.32, n.2, p.584-590, 2010. http://www.scielo.br/pdf/rbf/v32n2/aop4710.pdf
http://www.scielo.br/pdf/rbf/v32n2/aop47... ).

It could be withal noticed that seed preparations that included a cross-cut at the region opposite to the embryonic axis and water immersion for 24 hours (and the combinations of these factors) negatively affected seedling emergence (Table 2). Cutting the seeds reduced both the percentage and the speed of germination in other Passiflora species as well, probably due to the enhanced sensitiveness to pathogen attack caused by the injury (Cárdenas et al., 2013CÁRDENAS, J.; CARRANZA, C.; MIRANDA, D.; MAGNITSKIY, S. Effect of GA3, KNO3, and removing of basal point of seeds germination of sweet granadilla (Passiflora ligularis Juss) and yellow passion fruit (Passiflora edulis F. Flavicarpa). Revista Brasileira de Fruticultura, v.35, n.3, p.853-859, 2013. http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0100-29452013000300023
http://www.scielo.br/scielo.php?script=s... ). Soaking in water for 24 hours, in turn, might have caused damage by imbibition, which, in combination with the incision, led to the inferior results obtained.

When the physiological dormancy was looked into - first by using the plant growth regulator and next performing the germination test at 20-30 ºC, in the absence of light (Figure 2) - it became clear that, in terms of seedling emergence (Figure 2A), moistening the substrate paper with a GA₃ solution generated better results than the immersion treatment. This outcome likely has to do with the more prolonged contact between seeds and plant regulator, made possible by the soaking substrate.

At 100 mg.L^-1 of GA₃, 89% of normal seedlings emerged, a figure that is statistically higher than those found in the control (77%) and other treatments. It hence proves that yellow passion fruit seeds exhibit physiological dormancy. The results of GSI (Figure 2B) endorse that the concentration of 100 mg.L^-1 of GA₃ applied to the substrate paper speeded up the germinative process, thus being the most indicated in cases of physiological dormancy. Nevertheless, a germination decline might occur due to excessive doses of gibberellic acid (Taiz et al., 2017TAIZ, L.; ZEIGER, E.; MOLLER, J.M.; MURPHY, A. Fisiologia e desenvolvimento vegetal. 6.ed. Porto Alegre: Artmed, 2017. 858p.).

Dispersing gibberellin through seed immersion proved to be efficient for breaking the physiological dormancy in many other species of Passiflora, including P. suberosa, P. morifolia, P. tenuifila (Marostega et al., 2017MAROSTEGA, T.N.; LUZ, P.B.; TAVARES, A.R.; NEVES, L.G.; SOBRINHO, S.P. Methods of breaking seed dormancy for ornamental passion fruit species. Ornamental Horticulture, v.23, n.1, p.72-78, 2017. https://ornamentalhorticulture.emnuvens.com.br/rbho/article/view/982/697
https://ornamentalhorticulture.emnuvens.... ), P. edulis (Santos et al., 2013SANTOS, C.A.C.; VIEIRA, E.L.; PEIXOTO, C.P.; LEDO, C.A.S. Germinação de sementes e vigor de plântulas de maracujazeiro amarelo submetidos à ação do ácido giberélico. Bioscience Journal , v.29, n.2, p.400-407, 2013. http://www.seer.ufu.br/index.php/biosciencejournal/article/view/14137/12282
http://www.seer.ufu.br/index.php/bioscie... ), and P. cincinnata Mast (Zucareli et al., 2009ZUCARELI, V.; FERREIRA, G.; AMARO, A.C.E.; ARAÚJO, F.P. Fotoperíodo, temperatura e reguladores vegetais na germinação de sementes de Passiflora cincinnata Mast. Revista Brasileira de Sementes , v.31, n.3, p.106-114, 2009. http://www.scielo.br/pdf/rbs/v31n3/a12v31n3.pdf
http://www.scielo.br/pdf/rbs/v31n3/a12v3... ). On the other hand, the utilization of gibberellin in P. caerulea was ineffective, maybe because of the brief contact between seeds and solution - only 30 minutes (Hossel et al., 2018HOSSEL, C.; HOSSEL, J.S.A.O.; WAGNER-JÚNIOR, A.; ALEGRETTI, A.L.; DALLAGO, A. Temperaturas e giberelina na germinação de sementes de Passiflora caerulea. Pesquisa Aplicada e Agrotecnologia, v.11, n.1, p.93-98, 2018. https://revistas.unicentro.br/index.php/repaa/article/download/4704/3632
https://revistas.unicentro.br/index.php/... ).

Figure 3 depicts the mean percentage of normal seedlings emerged per day, during the germination tests conducted at the alternating temperature of 20-30 ºC, without light. The graph in Figure 3A shows that, in the case which no stimulating treatment was used, the germination stabilized 104 days past sowing, when the final count was then performed. Also, the first seedlings came out by the 20^th day, and the peak occurred on the 43^rd day. On the other hand, in the most promising treatments for breaking dormancy (Figure 3B), the study could be concluded within 59 days, with the number of normal seedling reaching the maximum after 20 and 29 days of planting. Those conditions proved to be capable of accelerating the whole process.

Notably, the best treatment against physiological dormancy (100 mg.L^-1 of GA₃, applied over paper) lasted only 49 days (Figure 3C), with the germination peaking on the 26^th day after the test setup. These data indicate that P. actinia seeds exhibit both physical and physiological dormancies, but the utilization of proper treatments can improve the germination percentage and the speed at which this phenomenon happens.

Regarding the storage data (Table 3), the chosen environment did not statistically alter the germination potential prior to the third month, even though the germination speed index started to decline in the same period. Such behavior was presumably influenced by the laboratory surroundings, as the higher conditions of temperature and relative air humidity might have favored the deterioration of seeds and the subsequent decrease of vigor.

Refrigeration (7.3-8.5 °C, 49-52% RH) kept both viability and vigor of yellow passion fruit seeds for nine months. By the end of this time, the germinative power was still rounding 60%, which evidences that those are suitable storage conditions. This environment also proved its efficiency in preserving the viability of P. edulis seeds for up to ten months, regardless of the type of packaging used (Catunda et al., 2003CATUNDA, P.H.A.; VIEIRA, H.D.; SILVA, R.F.; POSSE, S.C.P. Influência do teor de água, da embalagem e das condições de armazenamento na qualidade de sementes de maracujá amarelo. Revista Brasileira de Sementes , v.25, n.1, p.65-71, 2003. http://www.scielo.br/pdf/rbs/v25n1/19632.pdf
http://www.scielo.br/pdf/rbs/v25n1/19632... ). In other species, as P. setacea DC., for example, storing seeds in cold temperatures was also beneficial for maintaining their physiological quality (Pádua et al., 2011PÁDUA, P.G.; SCHWING, L.C.; MUNDIM, R.C.; SALOMÃO, A.N.; ROVERI JOSÉ, S.C.B. Germinação de sementes de Passiflora setacea e dormência induzida pelo armazenamento. Revista Brasileira de Sementes , v.33, n.1, p.80-85, 2011. http://www.scielo.br/scielo.php?pid=S0101-31222011000100009&script=sci_abstract&tlng=pt
http://www.scielo.br/scielo.php?pid=S010... ).

Conclusions

The germination test of yellow passion fruit seeds should be conducted over paper, at the alternating temperature of 20-30 °C, and without light.

Newly-harvested yellow passion fruit seeds exhibit both physical and physiological dormancies.

Treatments with immersion in water at 40 ºC or 50 ºC, for either 5 or 10 minutes, are indicated to break physical dormancy. Physiological dormancy, in turn, can be interrupted by applying 100 mg.L^-1 of gibberellic acid over the substrate paper.

Seeds stored inside hermetically sealed polyethylene packages, kept under refrigeration, retain their physiological quality for up to nine months.

Acknowledgments

The authors express their gratitude to Coordination for the Improvement of Higher Education Personnel (CAPES) for the scholarship granted.

References

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