ABSTRACT:

The passion fruit (Passiflora cincinnata Mast.) is a perennial and drought resistant species that represents a new alternative crop for small farmers in rainfed conditions. This study aimed to evaluate the vegetative and physiological development of passion fruit plants derived from two propagation methods and grown at varied planting spacing. The experiment was conducted from January to June of 2012, in the Universidade Estadual do Sudoeste da Bahia (State University from Southwestern Bahia), in Brazil. It was carried out in a randomized block design under a 2 x 3 factorial scheme, which consisted of two propagation methods (cutting and seeds) and three planting spacing distances within a row (1.5; 3.0 and 4.0 m), however, at same distance between rows (3.0 m), with four replicates and four plants per plot. Cuttings and seeds were sampled from adult plants pre-selected in native areas from Vitória da Conquista - BA, Brazil. Growth (stem diameter and leaf area) and physiological parameters (leaf chlorophyll content, leaf water potential before dawn, relative water content and leaf gas exchange) were assessed on the 90^th, 120^th and 150^th day after transplanting of seedlings into the field (DAT). Based on our results, we concluded that despite plants propagated via cuttings showed most favorable water status, vegetative growth and photosynthetic capacity were lower whether compared to plants obtained from seeds.

Keywords:
Passiflora cincinnata Mast; Growth; Photosynthesis; Gas exchange

RESUMO:

O maracujá-do-mato (Passiflora cincinnata Mast.) é uma espécie perene, resistente à seca, podendo representar uma nova alternativa de cultivo para o pequeno agricultor em condições de sequeiro. O presente trabalho teve como objetivo avaliar o desenvolvimento vegetativo e fisiológico de plantas de maracujá-do-mato, sob diferentes condições de propagação e espaçamentos. O experimento foi conduzido no período de janeiro a junho de 2012, na Universidade Estadual do Sudoeste da Bahia, com o delineamento em blocos casualizados, em esquema fatorial 2 x 3, constituído por dois métodos de propagação e três espaçamentos de plantio na linha (3,0 x 1,5; 3,0 x 3,0 e 3,0x 4,0 m) permanecendo constantes as distâncias entre as linhas de plantio de 3,0 m, com quatro repetições e quatro plantas por parcela. As estacas e sementes foram coletadas de plantas adultas selecionadas em áreas nativas de Vitória da Conquista-BA. Foram realizadas avaliações de crescimento (diâmetro do caule e área foliar) e fisiológicas (teor de clorofila na folha, potencial hídrico foliar antemanhã, teor relativo de água e trocas gasosas foliares) aos 90, 120 e 150 dias após transplantio das mudas no campo (DAT). Nas condições em que o trabalho foi conduzido conclui-se que apesar da manutenção de status hídrico mais favorável das plantas propagadas via estaquia, o desenvolvimento vegetativo e a capacidade fotossintética são reduzidas quando comparadas aos de plantas obtidas por meio de sementes.

Palavras-chave:
Passiflora cincinnata Mast; Crescimento; Fotossíntese; Trocas gasosas

INTRODUCTION

Crato passion fruit (Passiflora cincinnata Mast.) has great importance as a genetic resource, owning a great production potential because of its adaption under semiarid weather conditions in Northeastern Brazil, besides its fruit nutritional characteristics (SANTOS et al., 2012aSANTOS, J. L. et al. Propagação vegetativa de estacas de Passiflora cincinnata Mast. em diferentes recipientes e substratos comerciais. Revista Brasileira de Fruticultura, Jaboticabal, v. 34, n. 2, p. 581-588, 2012a.).

According to Queiroz (2011QUEIROZ, M. A. Recursos Genéticos Vegetais da Caatinga para o Desenvolvimento do Semiárido Brasileiro. Revista Brasileira de Geografia Física, Recife, v. 4, n. 6, p. 1135-1150, 2011.), P. cincinnata has two main uses, one as a source of pathogen-resistance for same-genus species grown in irrigated fields, and another in farming for fruit production aside from ornamental or medicinal purposes, among which superior types can be grown under rainfed conditions.

According to Araújo (2007ARAÚJO, F. P. Caracterização da variabilidade morfo-agronômica de maracujazeiro (Passiflora cincinnata Mast.) no semi-árido brasileiro. 2007. 94 f. Tese (Doutorado em Agronomia: Área de Concentração em Horticultura) - Universidade Estadual Paulista Júlio de Mesquita Filho, Faculdade de Ciências Agronômicas, Botucatu, 2007.), P. cincinnata has market potential for being unique due to its distinctive flavor when compared to yellow passion fruit (P. edulis Deg.). Santos et al. (2012bSANTOS, T. C.; JÚNIOR, J. E. N.; PRATA, A. P. N. Frutos da Caatinga de Sergipe utilizados na alimentação humana. Scientia Plena, Sergipe, v. 8, n. 4, p. 1-7, 2012b.) reported this fruit marketed in natura in the Municipal Market and Supply Center from Aracaju-SE, Brazil.

Despite the efforts to build a knowledge base on P. cincinnata, little information concerning its morphological, reproductive biology, breeding and physiological aspects are available, limiting thus the creation of management strategies for further production chain.

Cutting is one of the vegetative propagation techniques used in passion fruit plants which contributes to uniform orchards, besides mitigating, in a short-term, pathogen symptoms (VAZ et al., 2009VAZ, C. F. et al. Enraizamento de espécies silvestres de maracujazeiro utilizando cinco doses de ácido indolilbutírico. Revista Brasileira de Fruticultura, Jaboticabal, v. 31, n. 3, p. 816-822, 2009.) as well as reducing crop earliness (LIRA JÚNIOR, 2012LIRA JÚNIOR, J. S. Estratégia de superação da autoincompatibilidade e herança da sensibilidade da indução floral ao fotoperíodo em maracujazeiro. 2012. 66 f. Tese (Doutorado em Genética e melhoramento) - Universidade Federal de Viçosa, Viçosa, 2012.). In contrast, this technique is absent of genetic segregation, which is drawback to passionfruit farming according to Rezende et al. (2005REZENDE, O. P. et al. Estaquia de maracuja-amarelo (Passiflora edulis sims f. flavicarpa deg.) em miniestufas constituídas de garrafas de poliestireno, avaliando-se cinco substratos. Revista Ceres, Viçosa, v. 52, n. 300, p. 267-273, 2005.), since high rates of self-incompatibility require maintenance of genetic variability. Because of such limiting factor, passiflora propagation should be carried via seeds, once this type of reproduction would decrease viral infections (CORREA et al., 2010CORRÊA, L. S. et al. Uso de câmara úmida em enxertia convencional de maracujazeiro-amarelo sobre três porta-enxertos. Revista Brasileira de Fruticultura, Jaboticabal, v. 32, n. 2, p. 591-598, 2010.) and promote a less complex and low-cost seedling production.

The seminiferous spread of P. cincinnata becomes unfeasible since this species has low germination rate, whose cause derives from its seed dormancy. According to Meletti et al. (2002MELETTI, L. M. M. et al. Novas tecnologias melhoram a produção de mudas de maracujá. O Agronômico, Campinas, v. 54, n. 1, p. 30-33, 2002.), seed storage for more than two years plus heat treatment are ways of reaching acceptable rates of germination. In addition, pretreating seeds stored for one year with regulators GA4 +7+N-(phenyl-methyl)-aminopurine is also effective for raising the emergency P. cincinnata seeds (ZUCARELI et al., 2009ZUCARELI, V. et al. GA4+7+ N-(Fenilmetil)-aminopurina na germinação de sementes e emergência de plântulas de Passiflora cincinnata Mast. Revista Brasileira de Fruticultura, Jaboticabal, v. 31, n. 1, p. 216- 223, 2009.).

The information on propagation methods and crop management are important to widen the knowledge on initial vegetative development of this species in the field, specially grounded on plant morphological and physiological parameters. Researches have shown that plants with higher initial vegetative vigor provide enhanced production yields.

Given the above, this study's goal was to evaluate the vegetative and physiological development of passion fruit plants (P. cincinnata Mast.) under varied propagation methods and planting spacing.

MATERIAL AND METHODS

The experiment was carried out at the Universidade Estadual do Sudoeste da Bahia (State University from Southwestern Bahia) from January to June of 2012, in Vitoria da Conquista, Bahia state, Brazil. The area is located at 14º 53' South latitude and 40º 48' West longitude and at an altitude of 941 meters. Local annual average temperatures vary between 19.5 to 20.5 °C (SANTOS et al., 2011SANTOS, L. da C. et al. Estudo da demanda evapotranspirométrica do munícipio de Vitória da Conquista/BA. Revista Brasileira de Agricultura Irrigada, Fortaleza, v. 5, n. 3, p.173-187, 2011.). Figure 1 shows the total rainfall, relative humidity as well as maximum and minimum monthly average temperatures during the experimental period.

Passiflora cincinnata Mast. fruit were sampled from Vitória da Conquista-BA to produce seed-grown seedlings. First, we removed the seed mucilage using tap water and manual rubbing against a plastic mesh sieve, being placed to shade dry on paper towels for 72 hours and then being stored at 10 °C. At sowing time, seeds were heated in water bath for 5 minutes at 50 ºC to break dormancy (OLIVEIRA JR et al., 2010OLIVEIRA JÚNIOR, M. X. de; et al. Superação de dormência de maracujá-do-mato (Passiflora cincinnata MAST.). Revista Brasileira de Fruticultura, Jaboticabal, v. 32, n. 2, p. 584-590, 2010.).

We selected mother-plants in native areas from Vitoria da Conquista to produce the cutting-grown seedlings. From these matrices, we removed herbaceous branches from plant middle part. Cuttings were, on average, 15 cm long and with 4.5 mm diameter, containing two to three internodes and a half leaf (SANTOS et al., 2012aSANTOS, J. L. et al. Propagação vegetativa de estacas de Passiflora cincinnata Mast. em diferentes recipientes e substratos comerciais. Revista Brasileira de Fruticultura, Jaboticabal, v. 34, n. 2, p. 581-588, 2012a.). The cuttings were dipped in indole-butyric acid (IBA) at 1,000 ppm for 10 seconds, and immediately planted. Seedlings propagated by both seed and cutting were grown in polythene bags with dimensions of 11x18 cm, filled with substrate constituted by agricultural soil and cow manure (200 L/ m³⁾, which had been submitted to solarization for one week covered by clear plastic. The seedlings were grown in a greenhouse with transparent plastic cover and shade cloth sides (50% light restriction), being irrigated manually every day.

A randomized block design was adopted with a 2 x 3 factorial scheme, consisting of two propagation methods and three planting spacing within a row (1.5, 3.0 and 4.0 m) at same row distance (3 m), four replications and four plants per plot; only the two central plants were evaluated. Cropped lines were remained around the experimental area to avoid external interferences.

Seed- and cutting-grown seedlings were selected for planting when they had five to six leaf pairs and at the appearance of the first tendril. The area was previously plowed and harrowed; rows were furrowed out, having about 0.40 m depth and 0.30 m width. Liming was carried out throughout the area on the basis of soil analysis (Table 1) and using limestone with 29% CaO, 21% MgO and a PRNT at 90.5%, aiming to raise soil base saturation up to 80%, as recommended for P. edulis (CATI, 1992CATI. Adubação do maracujá. Campinas: CATI, 1992. 3p. (Comunicado Técnico, 97).). Phosphate, nitrogen and potassic fertilizations followed recommendations proposed by Souza et al. (1999SOUZA, M. de. et al. Maracujazeiro. In: RIBEIRO, A. C.; GUIMARÃES, P. T. C.; ALVAREZ, V. H. (Ed.). Recomendações para o uso de corretivos e fertilizantes em Minas Gerais - 5ª aproximação. Viçosa: CFSEMG, 1999. p. 242-243.) for P. edulis. At planting time, fertilizer was added together with 10 L hardened cattle manure per plant, plus 50 g of micronutrients in chip form - FTEBR 12. Seedlings were placed above soil level and had their lap covered by soil, aiming to retain water. Irrigation was performed throughout the experiment by manual watering twice a week applying five liters of water per plant. Seedlings were trained in espalier to a single stem through a string attached from soil up to a 2-m high trellis wire. Thinning pruning was carried to remove side shoots (suckers) and lopping at trellis wire line. In addition, two lateral branches were trained in opposite directions, growing curtain-shaped tertiary and quaternary branches at regular growth until plant formation.

At 90 (April / 2012), 120 (May / 2012) and 150 (June / 2012) days after transplanting the seedlings to the field (DAT), we evaluated stem diameter (SD), leaf area (LA), leaf chlorophyll content (SPAD), leaf water potential (Ψ_w), relative water content (RWC). We also measured leaf gas exchange, stomatal conductance (Gs), transpiration (T), carboxylation efficiency (A/Ci) and net photosynthesis (A_net ). The SD was measured by caliper at 15 cm above ground. For foliar analysis, two fully expanded leaves were collected from first order stems on the 90^th DAT (primary sector), from second order on the 120^th DAT (secondary branches) and from third order on the 150^th DAT (tertiary branches). The analysis was performed with LI-3100C area meter (LIQUOR, Inc., Lincoln, Neb., USA) and expressed in cm². Chlorophyll content analysis was done by chlorophyll meter in fully expanded mature leaves taken from the primary (90 DAT), secondary (120 DAT) and tertiary (150 days DAT) branches. The same leaves were used for gas exchange measurements, which were performed by means of infrared gas analyzer (IRGA) (model LCpro ADC Bioscientific Ltd., UK), to which was coupled a source of actinic light, resulting in a photosynthetic active radiation of 1,000 μm photons m^-2 s^-1.

Measurements of Ψ_w were taken with the aid of a PMS 1000 pressure pump (PMS Instrument Company, EUA), according to Scholander (1965SCHOLANDER, P. F. et al. Sap pressure in vascular plants. Negative hydrostatic pressure can be measured in plants. Science, Washington, v. 148, n. 3, p. 339-346, 1965.), at five in the morning, withdrawing two fully expanded leaves from the middle third plant branch.

To determine the RWC, we used the same leaves from Ψ_w measurements. Eight 16-mm diameter leaf discs were cut out, weighed on an analytical scale (fresh mass - FM). Afterwards, they were placed on Petri dishes, submerged in deionized water and taken to refrigerator, where they remained for 24 hours. Then, water excess was removed with absorbent paper for turgid mass (TM) determination. The discs were again weighed and dried in a forced air circulation oven, remaining at 65 ºC for 48 hours until constant weight for dry matter (DM) measurement. RWC was then calculated based on the measurements of fresh mass, turgid mass and dry mass, as described in the following equation: RWC = {(FM - DM) / (TM - DM)} x 100.

Data underwent variance analysis and means compared by the F test at 5% probability. The degrees of freedom of the treatments were broken down through mean comparisons using the Tukey's test at 5% probability, with the aid of a System for Statistical and Genetic Analyses (SAEG, 2007SAEG. SAEG: sistema para análises estatísticas, versão 9.1. Viçosa: UFV, 2007.).

RESULTS AND DISCUSSION

There was no effect of propagation methods, planting spacing on SPAD index and T. In addition, there was no effect of the interaction between both factors on all variables.

Through Figure 2, we can observe larger values of SD and LA in seedlings propagated via seed compared to cutting-grown ones on the 90^th, 120^th and 150^th DAT in the field. The juvenile period of several fruit species is reduced in propagation by cuttings or grafting (ISUTSA, 2006ISUTSA, D. K. Performance of micropropagated and conventional Passion Fruit (Passiflora sedulous Sims.) varieties in three contrasting agroecological zones. Egerton Journal, Kenya, v. 6, n. 1, p. 87-102, 2006.); therefore, differences in vegetative characteristics were related to youth shortening of cutting-grown seedlings, which resulted in lower vegetative growth compared with seed-grown ones.

Planting spacing had effect only on Ψ_w modulus on the 90^th DAT, observing smaller values of Ψ_w for plants grown at farther spacing, on the 90^th DAT. However, in subsequent evaluations (120^th and 150^th DAT), larger spacing had no effect on that variable (Figure 3A).

Spacing effect verified on the 90^th DAT was related to a low precipitation rate within this period, as well as to a lower root absorptive capacity during initial development stage. In this context, on the 90th DAT, the lowest volume of available soil, given the narrowest spacing between rows, was associated with less water availability (MCCLYMONT et al., 2006McCLYMONT, L. et al. Effects of available soil volume on growth, bud fertility and water relations of young Shiraz grapevines. Australian Journal of Grape and Wine Research, Malden, v. 12, n. 1, p. 30-38, 2006.). Another important consideration regarding plant vegetative stage, when there is leaf expansion and formation, is that these are key processes strongly sensitive to water restrictions if compared to the flowering and fruiting stages (CARR, 2013CARR, M. K. V. The water relations and irrigation requirements of passion fruit (Passiflora edulis Sims): a review. Experimental Agriculture, Nairobi, v. 49, n. 4, p. 585-596, 2013.).

The spacing had no effect on Ψ_w on the 120th and 150th DAT. This has been associated to root vigor and hydraulic redistribution within the soil. Prieto et al. (2012PRIETO, I.; ARMAS, C.; PUGNAIRE, F. I. Water release through plant roots: new insights into its consequences at the plant and ecosystem level. New Phytologist, Lancaster, v. 193, n. 4, p. 830-841, 2012) defined hydraulic redistribution as a passive movement of water throughout the soil and root system; such movement is guided by water potential gradient at the plant-soil interface. Thus, a more intense hydraulic redistribution, induced by a root system with greater soil exploration capacity, even in closer planting spacing, could contribute to define maintenance of water status of plant shoot.

Nonetheless, water availability limitations may result in plant growth and vigor reductions without affecting parameters related to leaf water status or photosynthesis (TURNER et al., 1996TURNER, D. W.; MENZEL, C. M.; SIMPSON, D. R. Short term drying of half the root system reduces growth but not water status or photosynthesis in leaves of passion fruit (Passiflora sp.). Scientia Horticulturae, Amsterdam, v. 65, n. 1, p. 25-36, 1996.). Srinivas et al. (2010SRINIVAS, K. et al. Plant water relations, yield and nutrient content of passion fruit in relation to evaporation replenishment and fertigation. Indian Journal of Horticulture, Bangalore, v. 67, n. 3, p. 289-292, 2010.) found out that despite the fertigation has resulted in increase in number and yield of P. edulis, the Ψ_w modulus indexes were elevated compared to the control. Earliness and increased sensitivity to water stress for cell elongation in relation to photosynthesis in the leaves occur across the board for plants, as described by Taiz and Zeiger (2013TAIZ, L.; ZEIGER, E. Fisiologia vegetal. 5. ed. Porto Alegre, RS: Artmed, 2013. 918 p.).

When comparing both propagation methods, Ψ_w obtained higher values for seed-grown plants on the 90^th and 150^th DAT, with no differences observed on the 120^th DAT (Figure 3B). In this development stage, despite the maintenance of a larger LA for sexually propagated plants in detriment of cutting-grown seedlings, higher precipitation rates (March of 2012) might have favored water availability and extinguished the changes in Ψ_w.

In June, on the 150^th DAT evaluation, rainfall rate continued above than those measured on the 90^th DAT. However, the values of Ψ_w in seed propagated plants were higher than the others due to achievement of reproductive stage, in which crop coefficient is increased by higher evapotranspiration (CARR, 2013CARR, M. K. V. The water relations and irrigation requirements of passion fruit (Passiflora edulis Sims): a review. Experimental Agriculture, Nairobi, v. 49, n. 4, p. 585-596, 2013.).

According to studies carried by Souza et al. (2009SOUZA, M. S. M. et al. Evapotranspiração do maracujá nas condições do vale do curu. Revista Caatinga, Mossoró, v. 22, n. 2, p. 11-16, 2009.) in Vale do Curu-CE, there was a higher requirement of water flowering-fruit stage of P. edulis. For the present study, on the 90^th and 150^th DAT, although the earliness of reproductive phase for cutting seedlings, the highest absolute values of Ψ_w before dawn were observed in plants grown from seeds due to their higher vegetative vigor derived from a larger LA (Figure 3B).

A positive correlation between LA and T (Pearson correlation = 0.6887 at 1% probability) indicates that plant internal water status became less favorable for seed-grown plants, since they have larger LAs that promotes more water vapor exchanges between plant and atmosphere. Such vapor loss to atmosphere can be maximized with stomatal density and by inducing stomata opening through relative humidity decreases. Sánchez et al. (2013SÁNCHEZ, C; FISCHER, G.; SANJUANELO, D. W. Stomatal behavior in fruits and leaves of the purple passion fruit (Passiflora edulis Sims) and fruits and cladodes of the yellow pitaya [Hylocereus megalanthus (K. Schum. ex Vaupel) Ralf Bauer]. Agronomía Colombiana, Bogotá, v. 31, n. 1, p. 38-47, 2013.) verified the stomatal density in leaves of P. edulis is of 106.53 stomata per millimeter square, leading to a negative correlation between stomatal opening and relative humidity.

Even though propagation method had no effect on T, Rodriguez-Garmin et al. (2010RODRIGUEZ-GARMIN, J. et al. Relationships between xylem anatomy, root hydraulic conductivity, leaf/root ratio and transpiration in citrus trees on different rootstocks. Physiologia Plantarum, Sweden, v. 139, n. 2, p. 159-169, 2010.) pointed out that citrus seedlings with greater relations between shoot and root weights showed a reduced T. When related to total LA, we could observe the elevated impact of plant shoot biomass on T capacity of the seedlings.

On the 90^th DAT, larger leaf RWC values were observed in plants propagated via cuttings compared to plants grown from seeds (Figure 4A). These higher values were related to lower levels of Ψ_w, reaching values approximately five times lower than those observed by Srinivas et al. (2010SRINIVAS, K. et al. Plant water relations, yield and nutrient content of passion fruit in relation to evaporation replenishment and fertigation. Indian Journal of Horticulture, Bangalore, v. 67, n. 3, p. 289-292, 2010.) were. Studying water replacement proportional to evaporation and fertigation in plants of P. edulis, these authors found higher turgidity in leaf tissues (higher RWCs) with higher values of Ψ_w.

Gomes et al. (2012GOMES, M. T. G. et al. Drought tolerance of passion fruit plants assessed by the OJIP chlorophyll a fluorescence transient. Scientia Horticulturae, Amsterdam v. 142, n. 13, p. 49-56, 2012.), studying P. edulis plants under water stress, verified a variation of Ψ_w from 0.16 to 3.25 MPa between control and plants under stress, respectively. This contrast consisted of a factor to be considered in future studies regarding the ability of P. cincinnata to withstand water stress when compared to P. edulis, concerning osmotic adjustment and hydraulic conductivity between root and shoot.

Higher values of A_net were observed on the 90^th DAP in plants of P. cincinnata Mast. originated from seeds in comparison with plants propagated through cuttings (Figure 4B). Gama et al. (2013GAMA, V. N. et al. Photosynthetic characteristics and quality of five passion fruit varieties under field conditions. Acta Physiologiae Plantarum, Krakov, v. 35, n. 3, p. 941-948, 2013. ), studying five cultivars of P. edulis plant, observed values from 10.86 to 18.07 µmol m^-2 s^-1. Yet Vasconcellos and Martelleto (2012VASCONCELLOS, M. A. S.; MARTELLETO, L. A. P. Ecofisiologia do maracujazeiro. Informe Agropecuário, Belo Horizonte, v. 33, n. 269, p. 24-34, 2012.) verified that A_net levels of approximately, 13.5 µmol m^-2 s^-1 for P. cincinnata.

There was no significant effect of Gs on P. cincinnata plants grown from seeds when compared to plants from cuttings (Figure 5A). However, there was a performance pattern on the 90^th and the 150^th DAT, being similar to those observed for Ψ_w. In studies made with grapevine, McClymont et al. (2006McCLYMONT, L. et al. Effects of available soil volume on growth, bud fertility and water relations of young Shiraz grapevines. Australian Journal of Grape and Wine Research, Malden, v. 12, n. 1, p. 30-38, 2006.) verified that increased values of Gs and Ψ_w was associated with a larger volume of soil available for plants. Since the fibrous root system of plants propagated via cutting usually reaches only the superficial soil layers, these plants have less capacity of intercepting water when compared to the absorption range of a taproot system, which is characteristic of the plants obtained from seeds.

An increased A/Ci was observed in plants grown from seed on the 90^th DAT (Figure 5B). The CO₂ concentration within the sub-stomatal chamber (Ci) reflects the termination of CO₂ that is a result of biochemical reactions of such gas incorporation through carboxylation enzymes. Freire et al. (2014FREIRE, J. L. O. et al. Rendimento quântico e trocas gasosas em maracujazeiro amarelo sob salinidade hídrica, biofertilização e cobertura morta. Revista Ciência Agronômica, Fortaleza, v. 45, n. 1, p. 82-91, 2014.) verified reduction in A/Ci due to a decrease in A_net and increase in Ci for P. edulis plants irrigated with saline water, revealing their limitation on carboxylation capacity compared to plants irrigated with fresh water. In this study, we may highlight that A/Ci is primarily related to A_net rate in P. cincinnata plants from seeds, as Ci values were similar in all treatments (data not illustrated).

CONCLUSION

Cutting-grown plants had lower vegetative development than those propagated by seeds.

Plants propagated via seeds exhibited higher gas exchange and lower leaf turgidity at the beginning of the vegetative development (90^th DAT) compared to plants from cuttings.

Passiflora cincinnata plants spaced by 4 meters had the lowest leaf water potential on the 90^th DAT.

REFERENCES

Publication Dates

History