Tomato genotypes with determinate growth and high acylsugar content presenting resistance to spider mite

Maciel, Gabriel Mascarenhas; Marquez, Guilherme Repeza; Silva, Ernani Clarete da; Andaló, Vanessa; Belloti, Igor Forigo

doi:10.1590/1984-70332018v18n1a1

Abstract

Currently, the main control strategy for arthropod-pests in tomato cropping is the use of synthetic chemical insecticides and miticides. The study aimed to select tomato genotypes of Santa Cruz type, with determinate growth habit, which were rich in acylsugar and presented resistance to spider mite. The evaluated segregating populations were derived from interspecific crossing and were in the advanced generation F₂BC₂. Genotypes were assessed for acylsugars content, present in leaflets, trichomes at abaxial and adaxial parts and a repellence bioassay to the mite was performed. It was found that the genotype UFU-102-F₂BC₂#13 stood out in comparison to the others, showing determinate growth habit, high acylsugar content and resistance to spider mite. It was also possible to obtain genotypes that were similar to the wild specie S. pennellii, regarding the acylsugar content.

Key words:
Allelochemical; biotic stress; growth habit; self-pruning gene; Tetranychus urticae

INTRODUCTION

The tomato (Solanum lycopersicum L.) is the most widely cultivated vegetable crop worldwide. In 2012, over 69.000 hectares of tomato were cultivated in Brazil, where 24.000 hectares were occupied with cultivars that present determinate growth habit (industry and consumption in natura). More than 1.700 hectares were occupied with determinate cultivars, which were designed for in natura consumption, indicating significant participation in the setting of national tomato production combined with substantial growth in recent years (ABCSEM 2012ABCSEM - Associação Brasileira de Comércio de Sementes e Mudas (2012) Dados do setor de pesquisa de mercado de sementes de hortaliças. Available at <Available at www.abcsem.com.br/dadosdosegmento.php >. Accessed on May 3, 2016.
www.abcsem.com.br/dadosdosegmento.php... ).

Among the cultivated species, the tomato can be considered one of the most susceptible to arthropod pests (Resende et al. 2006Resende JTV, Maluf WR, Faria MV, Pfann AZ and Nascimento IR (2006) Acylsugars in tomato leaflets confer resistance to the south american tomato pinworm, Tuta absoluta Meyr. Scientia Agricola 63: 20-25., Pereira et al. 2008Pereira GVN, Maluf WR, Gonçalves LD, Nascimento IR, Gomes LAA and Licursi V (2008) Seleção para alto teor de acilaçúcares em genótipos de tomateiro e sua relação com a resistência ao ácaro vermelho (Tetranychus evansi) e à traça (Tuta absoluta). Ciência e Agrotecnologia 32: 996-1004., Resende et al. 2008Resende JTV, Maluf WR, Cardoso MG, Faria MV, Gonçalves LD and Nascimento IR (2008) Resistance of tomato genotypes with high level of acylsugars to Tetranychus evansi. Scientia Agricola 65: 31-35., Maciel et al. 2011Maciel GM, Maluf WR, Silva VF, Gonçalves Neto AC and Gomes LAA (2011) Híbridos pré-comerciais resistentes a Tuta absoluta obtidos de linhagem de tomateiro rica em acilaçúcares. Horticultura Brasileira 29: 151-156. , Oliveira et al. 2012Oliveira CM, Andrade Júnior VC, Maluf WR, Neiva IP and Maciel GM (2012) Resistance of tomato strains to the moth Tuta absoluta imparted by allelochemicals and trichome density. Ciência e Agrotecnologia 36: 45-52., Czepak et al. 2013Czepak C, Albernaz KC, Vivian LM, Guimarães HO and Carvalhais T (2013) Primeiro registro de ocorrência deHelicoverpa armigera(Hübner) (Lepidoptera: Noctuidae) no Brasil. Pesquisa Agropecuária Tropical 43: 110-113. , Neiva et al. 2013Neiva IP, Andrade Júnior VC, Maluf WR, Oliveira CM and Maciel GM (2013) Role of allelochemicals and trichome density in the resistance of tomato to whitefly. Ciência e Agrotecnologia 37: 61-67., Maciel et al. 2014Maciel GM and Silva EC (2014) Proposta metodológica para quantificação de acilaçúcares em folíolos de tomateiro. Horticultura Brasileira 32: 174-177.). Currently, the main recommendation for pest management is the chemical control (insecticides and miticides). That is the most used method since the 1970's (Sato et al. 2009Sato ME, Silva MZ, Silva RB, Souza Filho MF and Raga A (2009) Monitoramento da resistência de Tetranychus urticae Koch (Acari: Tetranychidae) a Abamectin e Fenpyroximate em diversas culturas no estado de São Paulo. Arquivos do Instituto Biológico 76: 217-223., Silveira et al. 2011Silveira LFV, Polanczyk D and Pratissoli CR (2011) Franco Seleção de isolados de Bacillus thuringiensis Berliner para Tetranychus urticae Koch. Arquivos do Instituto Biológico 78: 273-278.), which makes vital thinking about other strategies to reduce the exclusive use of it. Genetic improvement, aiming the resistance to arthropod pests, a type of biotic stress, and tomato diseases has been widely used in order to reduce such attacks (Maciel et al. 2009Maciel GM, Maluf WR, Silva VF, Gonçalves Neto AC, Hayata L, Carvalho RC, Moretto P, Licursi V and Moretto DP (2009) Heterose e capacidade combinatória em linhagens de tomateiro na obtenção de híbridos com teores intermediários de acilaçúcares. Horticultura Brasileira 27: 1161-1167., Gonçalves Neto et al. 2010Gonçalves Neto AC, Silva VF, Maluf WR, Maciel GM, Nizio DAC, Gomes LAA and Azevedo SM (2010) Resistência à traça-do-tomateiro em plantas com altos teores de acilaçúcares nas folhas. Horticultura Brasileira 28: 203-208., Maluf et al. 2010Maluf WR, Maciel GM, Gomes LAA, Cardoso MG, Gonçalves LD, Silva EC and Knapp M (2010) Broad-spectrum arthropod resistance in hybrids between high and low-acylsugar tomato lines. Crop Science 50: 439-450., Oliveira et al. 2012Oliveira CM, Andrade Júnior VC, Maluf WR, Neiva IP and Maciel GM (2012) Resistance of tomato strains to the moth Tuta absoluta imparted by allelochemicals and trichome density. Ciência e Agrotecnologia 36: 45-52., Neiva et al. 2013Neiva IP, Andrade Júnior VC, Maluf WR, Oliveira CM and Maciel GM (2013) Role of allelochemicals and trichome density in the resistance of tomato to whitefly. Ciência e Agrotecnologia 37: 61-67.). In this sense, the use of the wild specie Solanum pennellii allows obtaining tomato lines (Maciel et al. 2009Maciel GM, Maluf WR, Silva VF, Gonçalves Neto AC, Hayata L, Carvalho RC, Moretto P, Licursi V and Moretto DP (2009) Heterose e capacidade combinatória em linhagens de tomateiro na obtenção de híbridos com teores intermediários de acilaçúcares. Horticultura Brasileira 27: 1161-1167., Gonçalves Neto et al. 2010Gonçalves Neto AC, Silva VF, Maluf WR, Maciel GM, Nizio DAC, Gomes LAA and Azevedo SM (2010) Resistência à traça-do-tomateiro em plantas com altos teores de acilaçúcares nas folhas. Horticultura Brasileira 28: 203-208.) and hybrids (Maluf et al. 2010Maluf WR, Maciel GM, Gomes LAA, Cardoso MG, Gonçalves LD, Silva EC and Knapp M (2010) Broad-spectrum arthropod resistance in hybrids between high and low-acylsugar tomato lines. Crop Science 50: 439-450., Maciel et al. 2011Maciel GM, Maluf WR, Silva VF, Gonçalves Neto AC and Gomes LAA (2011) Híbridos pré-comerciais resistentes a Tuta absoluta obtidos de linhagem de tomateiro rica em acilaçúcares. Horticultura Brasileira 29: 151-156. , Oliveira et al. 2012Oliveira CM, Andrade Júnior VC, Maluf WR, Neiva IP and Maciel GM (2012) Resistance of tomato strains to the moth Tuta absoluta imparted by allelochemicals and trichome density. Ciência e Agrotecnologia 36: 45-52., Neiva et al. 2013Neiva IP, Andrade Júnior VC, Maluf WR, Oliveira CM and Maciel GM (2013) Role of allelochemicals and trichome density in the resistance of tomato to whitefly. Ciência e Agrotecnologia 37: 61-67.) with broad-spectrum resistance to major arthropod pests, in tomato crop. This species presents an allelochemical named acylsugar, which when combined with the presence of glandular trichomes, becomes primarily responsible for conferring resistance to pests in tomato. The presence of acylsugar is due to an action of a recessive allele, with incomplete dominance towards low levels (Gonçalves et al. 2007Gonçalves LD, Maluf WR, Cardoso MG, Gomes LAA and Nascimento IR (2007) Herança de acilaçúcares em genótipos de tomateiro provenientes de cruzamento interespecífico. Pesquisa Agropecuária Brasileira 42: 699-705.).

Over the years, the demand for materials with determined growth habit has increased, since they have a better use of photoassimilates, do not require an extensive workforce and, because of that, their cultivation becomes cheaper (Maciel et al. 2016Maciel GM, Fernandes MAR, Melo OD and Oliveira CS (2016) Potencial agronômico de híbridos de minitomate com hábito de crescimento determinado e indeterminado. Horticultura Brasileira 34: 144-148.). Given the increased demand for determined growth plants, designed for in natura consumption, more research is needed, seeking to obtain genotypes rich in acylsugars, aiming to achieve a broad-spectrum resistance.

In tomato crops, the two-spotted spider mite, Tetranychus urticae Koch (Tetranychidae) is considered a main pest, that is capable of causing serious losses in the crops, by its extremely polyphagous and cosmopolitan behavior (Sato et al. 2009Sato ME, Silva MZ, Silva RB, Souza Filho MF and Raga A (2009) Monitoramento da resistência de Tetranychus urticae Koch (Acari: Tetranychidae) a Abamectin e Fenpyroximate em diversas culturas no estado de São Paulo. Arquivos do Instituto Biológico 76: 217-223., Silveira et al. 2011Silveira LFV, Polanczyk D and Pratissoli CR (2011) Franco Seleção de isolados de Bacillus thuringiensis Berliner para Tetranychus urticae Koch. Arquivos do Instituto Biológico 78: 273-278.). Losses of more than 30% in the tomato crop were caused by this mite (Sato 2015Sato ME (2015) Ácaro rajado em tomate tem assustado produtores. Revista campos & negócios. Available at <Available at http://www.revistacampoenegocios.com.br/acaro-rajado-em-tomate-tem-assustado-produtores >. Accessed on May 4, 2016.
http://www.revistacampoenegocios.com.br/... ).

Therefore, the objective of this study was to select tomato genotypes, obtained from crossing S. lycopersicum x S. pennellii, that maintain the characteristic of determinate growth habit and show high acylsugars content, and therefore showing resistance to T. urticae.

MATERIAL AND METHODS

The genetic material used in the experiments was obtained from the Vegetable Germplasm Bank of the LAGEN (Laboratory of Genetic Resources). The segregating populations evaluated were obtained from the interspecific cross between the pre-commercial strain UFU-040 (S. lycopersicum) versus wild accession LA-716 (S. pennellii). UFU-040 is a pre-commercial line, with large fruits (> 180g), has low acylsugars content, is susceptible to pests, is a homozygous recessive genotype (spsp) for self-pruning, and has a genotypic background similar to the cultivar Santa Clara. The wild accession LA-716 has a high acylsugars content, small fruits (15 g), is resistant to pests (Maluf et al. 2010Maluf WR, Maciel GM, Gomes LAA, Cardoso MG, Gonçalves LD, Silva EC and Knapp M (2010) Broad-spectrum arthropod resistance in hybrids between high and low-acylsugar tomato lines. Crop Science 50: 439-450., Maciel et al. 2011Maciel GM, Maluf WR, Silva VF, Gonçalves Neto AC and Gomes LAA (2011) Híbridos pré-comerciais resistentes a Tuta absoluta obtidos de linhagem de tomateiro rica em acilaçúcares. Horticultura Brasileira 29: 151-156. ) and has an indeterminate growth habit [dominant homozygote (SPSP) for self-pruning].

The experiments were conducted at the Vegetable Experimental Station (lat 18º 42’ 43.19” S, long 47º 29' 55.8” W, alt 873 m asl) and LAGEN of the Federal University of Uberlândia - UFU, Monte Carmelo Campus, in the period from May 2013 to April 2016. The study was conducted at different stages: obtaining and selecting F₂BC₁ plants rich in acylsugars; obtaining and selecting F₂BC₂ plants rich in acylsugars; leaf trichomes quantification and evaluation of the repellence to the two-spotted spider mite in F₂BC₂ plants.

For the selection of plants with high acylsugars content, 10 F₂BC₁ genotypes were used, which were, previously, obtained from self-fertilization of the first backcross F₁BC₁: UFU-96-F₂BC₁#4, UFU-102-F₂BC₁#8, UFU-75-F₂BC₁#4, UFU-97-F₂BC₁#1, UFU-76-F₂BC₁#2, UFU-96-F₂BC₁#2, UFU-97-F₂BC₁#2, UFU-104-F₂BC₁#7, UFU-113-F₂BC₁#2, UFU-114-F₂BC₁#2 and the two check treatments, UFU-040 (low acylsugar content) and LA-716 wild accession (S. pennellii) (high acylsugar content).

The genotypes were sowed in polystyrene trays with 200 cells, filled with substrate of coconut fiber. Thirty-five days after sowing, the seedlings were transplanted to 500 mL pots, containing the same substrate that was used for the seedlings production. The tomato plants were grown in a greenhouse of type arch, with dimensions of 7 x 21 m and ceiling 4 m, covered with transparent polyethylene film of 150 microns, additivated against ultraviolet rays and with curtain side of anti-aphid white screen.

The experiment was conducted in a randomized block design, containing two replications, totalizing 24 plots (12 genotypes x 2 blocks). Each plot was represented by 10 plants. Eighty-five days after sowing, the leaflets were collected in order to quantify the acylsugars content. For the allelochemical extraction, six leaf discs (equivalent to 4.2 cm²), from all plants, were collected. The discs were collected from leaflets present in the upper third of the plants. After being collected, they were placed on test tubes and the chemical analysis was conducted, according to the methodology proposed by Resende et al. (2002Resende JTV, Cardoso MG, Maluf WR, Santos CD, Gonçalves LD, Resende LV and Naves FO (2002) Método colorimétrico para quantificação de acilaçúcar em genótipos de tomateiro. Ciência e Agrotecnologia 26: 1204-1208.). Among the 200 plants obtained, from the 10 evaluated populations, those that presented acylsugar levels similar to the parent donor (wild accession LA-716) were selected. From these previously selected plants, the second backcross was again performed using the recurrent parent (UFU-040). In possession of F₁BC₂ seeds, a new sowing was done and during the reproductive phase of the plants, by natural self-fecundation, advanced genotypes F₂BC₂ were obtained.

After obtaining F₂BC₂ genotypes, a sowing with them (second backcross), the genitor recurrent (UFU-040, low acylsugar content), the parent donor (wild accession LA-716, rich in acylsugar) and the commercial cultivar Santa Clara, was made. All genotypes were sown in a polystyrene trays of 200 cells, filled with commercial substrate of coconut fiber. Thirty-two days after sowing, the seedlings were transplanted into 500 mL pots. The experiment was conducted in a greenhouse type arch, with dimensions of 7 x 21 m and ceiling 4 m, covered with transparent polyethylene film of 150 microns, additivated against ultraviolet rays and with curtain side of anti-aphid white screen.

The experiment was conducted in a randomized block design, containing two replications and nine treatments (genotypes), culminating in 18 plots. Eighty-five days after sowing, the leaflets were collected, in order to quantify the acylsugars content, according to the methodology proposed by Resende et al. (2002Resende JTV, Cardoso MG, Maluf WR, Santos CD, Gonçalves LD, Resende LV and Naves FO (2002) Método colorimétrico para quantificação de acilaçúcar em genótipos de tomateiro. Ciência e Agrotecnologia 26: 1204-1208.).

In order to quantify the glandular trichome (types I, IV, VI and VII), the same plants used in the previous experiment were used, making it possible to compare the results. Fifty days after transplanting the plants into pots, young and expanded leaflets were collected from the upper third of each plant. Aiming to quantify the epidermal glandular trichomes, present in the faces (abaxial and adaxial) of the leaflets, a stereoscopic microscope (40X) with a micrometer scale of 1 cm² was used. Five leaves per plant in each population were evaluated, totalizing 50 samples per plot.

The two-spotted spider mite, T. urticae, that were used in the experiment, were collected in commercial fields, on S. lycopersicum tomato leaves, in Monte Carmelo city (Minas Gerais state), in January 2016, and reared. The structure used for rearing the mites was consisted of a greenhouse type arch (6 x 4 m), ceiling 2 m, covered with transparent polyethylene film of 150 microns, additivated against ultraviolet rays and with curtain side of anti-aphid white screen.

The resistance to the mite was quantified according to a repellency test, proposed by Weston and Snyder (1990Weston PA and Snyder JC (1990) Thumbtack biossay: a quick method of measuring plant resistence to twospotted spider mites (Acari: Tetranychidae). Journal of Economic Entomology 83: 501-504), measuring the distances covered by the mites on the surface of the leaflets. Tests were performed at 5, 10, 15 and 20 minutes, started after five mites were placed on a thumbtack, that was fixed in the center of each leaflet.

The results were submitted to a variance analysis (F test p < 0.05) and, in case of a significant effect, the Tukey test was performed (p < 0.05), in order to compare the means for acylsugars content and trichomes density, and regression analysis to evaluate the repellency to the mite. The analyses were performed with the assistance of the software Genes (Cruz 2013Cruz CD (2013) GENES: A software package for analysis in experimental statistics and quantitative genetics. Acta Scientiarum. Agronomy 35: 271-276.). Contrasts of interest were performed, applying the Scheffé test p < 0.05 and 0.01), in order to compare the check treatments versus groups of the best genotypes, using the statistical analysis software Sisvar 5.3 (Ferreira 2000Ferreira DF (2000) Análises estatísticas por meio do Sisvar para Windows versão 4.0. In Anais da reunião anual da região brasileira da sociedade internacional de biometria 45. SIB, São Carlos, p. 255-258.).

RESULTS AND DISCUSSION

According the selection of F₂BC₁ genotypes, there were significant differences between the materials, referring to acylsugars content, compared to the recurrent parent (Table 1). Wild accession S. pennellii (LA-716) differed, significantly, from the UFU-040, showing 89.24% of relative superiority in relation to the pre-commercial strain. This result agrees with the data obtained in several studies (Maciel et al. 2009Maciel GM, Maluf WR, Silva VF, Gonçalves Neto AC, Hayata L, Carvalho RC, Moretto P, Licursi V and Moretto DP (2009) Heterose e capacidade combinatória em linhagens de tomateiro na obtenção de híbridos com teores intermediários de acilaçúcares. Horticultura Brasileira 27: 1161-1167., Gonçalves Neto et al. 2010Gonçalves Neto AC, Silva VF, Maluf WR, Maciel GM, Nizio DAC, Gomes LAA and Azevedo SM (2010) Resistência à traça-do-tomateiro em plantas com altos teores de acilaçúcares nas folhas. Horticultura Brasileira 28: 203-208., Maluf et al. 2010Maluf WR, Maciel GM, Gomes LAA, Cardoso MG, Gonçalves LD, Silva EC and Knapp M (2010) Broad-spectrum arthropod resistance in hybrids between high and low-acylsugar tomato lines. Crop Science 50: 439-450., Maciel et al. 2011, Oliveira et al. 2012Oliveira CM, Andrade Júnior VC, Maluf WR, Neiva IP and Maciel GM (2012) Resistance of tomato strains to the moth Tuta absoluta imparted by allelochemicals and trichome density. Ciência e Agrotecnologia 36: 45-52., Neiva et al. 2013Neiva IP, Andrade Júnior VC, Maluf WR, Oliveira CM and Maciel GM (2013) Role of allelochemicals and trichome density in the resistance of tomato to whitefly. Ciência e Agrotecnologia 37: 61-67., Maciel et al. 2014Maciel GM and Silva EC (2014) Proposta metodológica para quantificação de acilaçúcares em folíolos de tomateiro. Horticultura Brasileira 32: 174-177.), indicating the potential of the wild accession, S. pennellii, due to its high acylsugars content in the leaflets, when compared to commercial or pre-commercial cultivars.

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Table 1
Levels of acylsugar (nmols cm^-2 of leaf area) in tomato genotypes at F₂BC₁ generation and in the related genitor Solanum pennellii, LA-716 accession (donor parent) and Solanum lycopersicum, UFU-040 accession (recurrent parent)

Among the genotypes, some of them stood out for the presence of acylsugars: UFU-96-F₂BC₁#4, UFU-102-F₂BC₁#8, UFU-97-F₂BC₁#1, UFU-97-F₂BC₁#2, UFU-104-F₂BC₁#7 and UFU-114-F₂BC₁#2, since these did not differ, significantly, from the wild accession LA-716 (Table 1). There are strong indications that acylsugars is predominantly responsible for giving a broad spectrum-resistance to pests in tomato (Maluf et al. 2010Maluf WR, Maciel GM, Gomes LAA, Cardoso MG, Gonçalves LD, Silva EC and Knapp M (2010) Broad-spectrum arthropod resistance in hybrids between high and low-acylsugar tomato lines. Crop Science 50: 439-450., Maciel et al. 2011Maciel GM, Maluf WR, Silva VF, Gonçalves Neto AC and Gomes LAA (2011) Híbridos pré-comerciais resistentes a Tuta absoluta obtidos de linhagem de tomateiro rica em acilaçúcares. Horticultura Brasileira 29: 151-156. ). However, several authors (Resende et al. 2006Resende JTV, Maluf WR, Faria MV, Pfann AZ and Nascimento IR (2006) Acylsugars in tomato leaflets confer resistance to the south american tomato pinworm, Tuta absoluta Meyr. Scientia Agricola 63: 20-25., Gonçalves et al. 2007Gonçalves LD, Maluf WR, Cardoso MG, Gomes LAA and Nascimento IR (2007) Herança de acilaçúcares em genótipos de tomateiro provenientes de cruzamento interespecífico. Pesquisa Agropecuária Brasileira 42: 699-705., Maluf et al. 2010Maluf WR, Maciel GM, Gomes LAA, Cardoso MG, Gonçalves LD, Silva EC and Knapp M (2010) Broad-spectrum arthropod resistance in hybrids between high and low-acylsugar tomato lines. Crop Science 50: 439-450., Maciel et al. 2011Maciel GM, Maluf WR, Silva VF, Gonçalves Neto AC and Gomes LAA (2011) Híbridos pré-comerciais resistentes a Tuta absoluta obtidos de linhagem de tomateiro rica em acilaçúcares. Horticultura Brasileira 29: 151-156. , Oliveira et al. 2012Oliveira CM, Andrade Júnior VC, Maluf WR, Neiva IP and Maciel GM (2012) Resistance of tomato strains to the moth Tuta absoluta imparted by allelochemicals and trichome density. Ciência e Agrotecnologia 36: 45-52., Neiva et al. 2013Neiva IP, Andrade Júnior VC, Maluf WR, Oliveira CM and Maciel GM (2013) Role of allelochemicals and trichome density in the resistance of tomato to whitefly. Ciência e Agrotecnologia 37: 61-67.) have reported not only the presence of acylsugars, but also other factors could be associated with the resistance conferred by the wild accession S. pennellii, preventing the possibility to obtain genotypes with the same resistance range. This finding was also observed in the present study, for the F₂BC₁ generation, when the contrasts C2 and C4 (Table 1) were evaluated. According to the contrast C1, it is possible to verify that all F₂BC₁ genotypes obtained were superior to the recurrent parent (UFU-040). When evaluated in the same group (C3), the best genotypes were UFU-96-F₂BC₁#4, UFU-102-F₂BC₁#8 and UFU-97-F₂BC₁#1, differing significantly from the pre-commercial control (UFU-040). Moreover, observing the relative superiority of the same genotypes, UFU-96-F2BC1#4 UFU-102-F2BC1#8 and UFU-97-F₂BC₁#1, higher values were found for acylsugars content when they were compared with the recurrent parent (54.43; 58.86 and 30.38%, respectively) (Table 1). Such superiority was used as an indicator to select the best genotypes and performed the second backcross (F₁BC₂), and after that, to performed the self-cross to obtain the advanced generations (F₂BC₂) (Table 2).

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Table 2
Description of pre-selected genotypes at F₂BC₁ generation, Solanum pennellii, LA-716 accession (donor parent), Solanum lycopersicum, UFU-040 accession (recurrent parent) and commercial cultivar Santa Clara

After obtaining the advanced F₂BC₂ genotypes (Table 2), the acylsugars content was evaluated and compared with the check treatments (Table 3). Significant differences between genotypes (Tukey, 5% probability) were verified for acylsugars content.

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Table 3
Levels of acylsugar (nmols cm^-2 of leaf area) in tomato genotypes in F₂BC₂ generation and the genitor Solanum pennellii, LA-716 accession (donor parent) and Solanum lycopersicum, UFU-040 accession (recurrent parent)

Regarding the glandular trichome scores, in the abaxial and adaxial faces, it was observed that were differences among the evaluated genotypes. The wild accession S. pennellii had 81.9 and 73.1 cm^-2 more trichomes, compared to the cultivar Santa Clara and to the pre-commercial strain UFU-040 on the abaxial face, respectively, differing significantly from them (Tukey 5% probability). The same was observed when assessing the adaxial part of the leaflet. S. pennellii demonstrated superiority of 74 and 75.5 trichomes cm^-2, compared to the cultivar Santa Clara to the pre-commercial strain UFU-040 (Table 3). These results agree with other studies that report the low presence of glandular trichomes on cultivated tomatoes (Glas et al. 2012Glas JJ, Schimmel BC, Alba JM, Escobar-bravo R, Schuurink RC and Kant MR (2012) Plant glandular trichomes as targets for breeding or engineering of resistance to herbivores. International Journal of Molecular Sciences 13: 17077-17103. ) and the outstanding presence in wild species (Lucatti et al. 2013Lucatti AF, van Heusden AW, de Vos RC, Visser RGF and Vosma B (2013) Differences in insect resistance between tomato species endemic to the Galapagos Islands. BMC Evolutionary Biology 13:175.).

There is evidence that the trichomes on commercial tomato cultivars are higher found at the initial stage of the plant development, and a reduction comes as the phenological stages advance (Li 2004Li L, Zhao Y, McCaig BC, Wingerd BA, Wang J, Whalon ME, Pichersky E and Howe GA (2004) The tomato homolog of coronative-insensitive1 is required for the maternal control of seed maturation, jasmonate-signaled defense responses, and glandular trichome development. The Plant Cell 16: 126-143.). This fact could explain the difficulty or lack of efficiency in selecting plants, indirectly, aiming resistance to pests based only on the trichomes density in the leaflets.

Related to acylsugars content, the genotype UFU-102-F₂BC₂#13 highlighted and did not differ, significantly, from the wild accession S. pennellii (Tukey 5% probability). Comparing with cultivar Santa Clara, UFU-102-F₂BC₂#13 presents relative superiority of 65.11% in relation to acylsugars content (Table 3). The value obtained in the contrast C3 (11.59 nmoL of acylsugar cm^-2 of leaf area) indicates the superiority of the genotype UFU-102- F₂BC₂#13 compared to the recurrent parent (UFU-040) and compared to the cultivar Santa Clara, allowing us to state that there is a superiority to the commercial cultivars. Similar results were obtained by several authors (Gonçalves Neto et al. 2010Gonçalves Neto AC, Silva VF, Maluf WR, Maciel GM, Nizio DAC, Gomes LAA and Azevedo SM (2010) Resistência à traça-do-tomateiro em plantas com altos teores de acilaçúcares nas folhas. Horticultura Brasileira 28: 203-208., Maluf et al. 2010Maluf WR, Maciel GM, Gomes LAA, Cardoso MG, Gonçalves LD, Silva EC and Knapp M (2010) Broad-spectrum arthropod resistance in hybrids between high and low-acylsugar tomato lines. Crop Science 50: 439-450., Maciel et al. 2011Maciel GM, Maluf WR, Silva VF, Gonçalves Neto AC and Gomes LAA (2011) Híbridos pré-comerciais resistentes a Tuta absoluta obtidos de linhagem de tomateiro rica em acilaçúcares. Horticultura Brasileira 29: 151-156. ) when evaluating tomato genotypes after successive backcrosses. However, only the genotypes that bear indeterminate growth habit were emphasized.

As mentioned before, there are no advanced tomato genotypes, rich in acylsugars, with determinate growth habit and designed for in natura consumption. Thus, UFU-102- F₂BC₂#13 can be considered an excellent genotype, since it is rich in acylsugars, and it is also promising in order to encourage future breeding programs. In contrast, the other genotypes, UFU-96-F₂BC₂#2, UFU-96-F₂BC₂#7, UFU-97-F₂BC₂#4, UFU-102-F₂BC₂#8, UFU-102-F₂BC₂#15 and UFU-102-F₂BC₂#13 had low acylsugars content and they were not recommended for forward generations or to get homozygous lineage. However, it is noteworthy that there is a possibility that tomato hybrids with intermediate levels of acylsugar present a broad-spectrum resistance to pests (Maluf et al. 2010Maluf WR, Maciel GM, Gomes LAA, Cardoso MG, Gonçalves LD, Silva EC and Knapp M (2010) Broad-spectrum arthropod resistance in hybrids between high and low-acylsugar tomato lines. Crop Science 50: 439-450.).

In tomato genotypes of indeterminate growth, several studies have demonstrated the absence of transgressive segregation and, even the inferiority in acylsugars content of the genotypes selected for high levels, in relation to the wild accession S. pennellii (Gonçalves et al. 2007Gonçalves LD, Maluf WR, Cardoso MG, Gomes LAA and Nascimento IR (2007) Herança de acilaçúcares em genótipos de tomateiro provenientes de cruzamento interespecífico. Pesquisa Agropecuária Brasileira 42: 699-705., Pereira et al. 2008Pereira GVN, Maluf WR, Gonçalves LD, Nascimento IR, Gomes LAA and Licursi V (2008) Seleção para alto teor de acilaçúcares em genótipos de tomateiro e sua relação com a resistência ao ácaro vermelho (Tetranychus evansi) e à traça (Tuta absoluta). Ciência e Agrotecnologia 32: 996-1004., Resende et al. 2008Resende JTV, Maluf WR, Cardoso MG, Faria MV, Gonçalves LD and Nascimento IR (2008) Resistance of tomato genotypes with high level of acylsugars to Tetranychus evansi. Scientia Agricola 65: 31-35., Maciel et al. 2009Maciel GM, Maluf WR, Silva VF, Gonçalves Neto AC, Hayata L, Carvalho RC, Moretto P, Licursi V and Moretto DP (2009) Heterose e capacidade combinatória em linhagens de tomateiro na obtenção de híbridos com teores intermediários de acilaçúcares. Horticultura Brasileira 27: 1161-1167., Gonçalves Neto et al. 2010Gonçalves Neto AC, Silva VF, Maluf WR, Maciel GM, Nizio DAC, Gomes LAA and Azevedo SM (2010) Resistência à traça-do-tomateiro em plantas com altos teores de acilaçúcares nas folhas. Horticultura Brasileira 28: 203-208., Maciel et al. 2011, Oliveira et al. 2012Oliveira CM, Andrade Júnior VC, Maluf WR, Neiva IP and Maciel GM (2012) Resistance of tomato strains to the moth Tuta absoluta imparted by allelochemicals and trichome density. Ciência e Agrotecnologia 36: 45-52., Neiva et al. 2013Neiva IP, Andrade Júnior VC, Maluf WR, Oliveira CM and Maciel GM (2013) Role of allelochemicals and trichome density in the resistance of tomato to whitefly. Ciência e Agrotecnologia 37: 61-67., Maciel et al. 2014Maciel GM and Silva EC (2014) Proposta metodológica para quantificação de acilaçúcares em folíolos de tomateiro. Horticultura Brasileira 32: 174-177.). In the present study, the superiority of the wild accession, S. pennellii, was verified when compared with F₂BC₂ genotypes, but the genotype UFU-102-F₂BC₂#13 was similar to the wild accession, not differing, significantly, from it (Tukey test, 5% probability). This similarity suggests the possibility of getting tomato genotypes, with determinate growth, and with acylsugar levels close to wild accession S. pennellii.

It was found, in the previously selected genotypes, that independent of them, the mites walked on the surface of the leaflets (Figure 1). Generally, the mite displacement was reduced or stalled when genotypes with higher acylsugar content were evaluated. In the wild accession (S. pennellii), there were pronounced restrictions of mites displacements on the surface of the leaflets. These factors could be associated with the presence of trichomes and/or in function of the increased presence of acylsugars.

Figure 1
Regression equations for the average distance covered by Tetranychus urticae in function of the time (5, 10, 15 and 20 minutes) at different tomato genotypes.

It is notable that the genotype UFU-102- F₂BC₂#13, previously identified as rich in acylsugars (65.11% higher than the UFU-040, recurrent parent) also caused reduced displacement of the mite (Figure 1); so, the genotype UFU-102- F₂BC₂#13, can be considered to have a potential resistance to the mite. In contrast, the greatest distances roamed by the mites were found in both commercial cultivar and recurrent parent (Figure 1). These results agree with the works developed by Resende et al. (2008Resende JTV, Maluf WR, Cardoso MG, Faria MV, Gonçalves LD and Nascimento IR (2008) Resistance of tomato genotypes with high level of acylsugars to Tetranychus evansi. Scientia Agricola 65: 31-35.), where it was found that commercial cultivars presented higher displacement of mites, and by Silva et al. (2009Silva VF, Maluf WR, Cardoso MG, Gonçalves Neto AC, Maciel GM, Nízio DAC and Silva VAS (2009) Resistência mediada por aleloquímicos de genótipos de tomateiro à mosca-branca e ao ácaro-rajado. Pesquisa Agropecuária Brasileira 44: 1262-1269.), that obtained restrictions of mite displacement on the surface of the leaflets of S. pennellii and in the genotypes rich in acylsugar.

CONCLUSION

It was possible to select tomato genotypes of Santa Cruz type, with determinate growth habit, desirable levels of acylsugars and satisfactory resistance levels to T. urticae.

In tomato with determinate growth habit, in the generation F₂BC_2, it was possible to obtain a genotype similar to the wild accession, S. pennellii, related to acylsugar content.

ACKNOWLEDGEMENTS

The authors thank FAPEMIG, CNPq and UFU, for financial support, fellowships and provision of infrastructure.

REFERENCES

ABCSEM - Associação Brasileira de Comércio de Sementes e Mudas (2012) Dados do setor de pesquisa de mercado de sementes de hortaliças. Available at <Available at www.abcsem.com.br/dadosdosegmento.php >. Accessed on May 3, 2016.
» www.abcsem.com.br/dadosdosegmento.php
Cruz CD (2013) GENES: A software package for analysis in experimental statistics and quantitative genetics. Acta Scientiarum. Agronomy 35: 271-276.
Czepak C, Albernaz KC, Vivian LM, Guimarães HO and Carvalhais T (2013) Primeiro registro de ocorrência deHelicoverpa armigera(Hübner) (Lepidoptera: Noctuidae) no Brasil. Pesquisa Agropecuária Tropical 43: 110-113.
Ferreira DF (2000) Análises estatísticas por meio do Sisvar para Windows versão 4.0. In Anais da reunião anual da região brasileira da sociedade internacional de biometria 45. SIB, São Carlos, p. 255-258.
Glas JJ, Schimmel BC, Alba JM, Escobar-bravo R, Schuurink RC and Kant MR (2012) Plant glandular trichomes as targets for breeding or engineering of resistance to herbivores. International Journal of Molecular Sciences 13: 17077-17103.
Gonçalves LD, Maluf WR, Cardoso MG, Gomes LAA and Nascimento IR (2007) Herança de acilaçúcares em genótipos de tomateiro provenientes de cruzamento interespecífico. Pesquisa Agropecuária Brasileira 42: 699-705.
Gonçalves Neto AC, Silva VF, Maluf WR, Maciel GM, Nizio DAC, Gomes LAA and Azevedo SM (2010) Resistência à traça-do-tomateiro em plantas com altos teores de acilaçúcares nas folhas. Horticultura Brasileira 28: 203-208.
Li L, Zhao Y, McCaig BC, Wingerd BA, Wang J, Whalon ME, Pichersky E and Howe GA (2004) The tomato homolog of coronative-insensitive1 is required for the maternal control of seed maturation, jasmonate-signaled defense responses, and glandular trichome development. The Plant Cell 16: 126-143.
Lucatti AF, van Heusden AW, de Vos RC, Visser RGF and Vosma B (2013) Differences in insect resistance between tomato species endemic to the Galapagos Islands. BMC Evolutionary Biology 13:175.
Maciel GM, Maluf WR, Silva VF, Gonçalves Neto AC, Hayata L, Carvalho RC, Moretto P, Licursi V and Moretto DP (2009) Heterose e capacidade combinatória em linhagens de tomateiro na obtenção de híbridos com teores intermediários de acilaçúcares. Horticultura Brasileira 27: 1161-1167.
Maciel GM, Maluf WR, Silva VF, Gonçalves Neto AC and Gomes LAA (2011) Híbridos pré-comerciais resistentes a Tuta absoluta obtidos de linhagem de tomateiro rica em acilaçúcares. Horticultura Brasileira 29: 151-156.
Maciel GM and Silva EC (2014) Proposta metodológica para quantificação de acilaçúcares em folíolos de tomateiro. Horticultura Brasileira 32: 174-177.
Maciel GM, Fernandes MAR, Melo OD and Oliveira CS (2016) Potencial agronômico de híbridos de minitomate com hábito de crescimento determinado e indeterminado. Horticultura Brasileira 34: 144-148.
Maluf WR, Maciel GM, Gomes LAA, Cardoso MG, Gonçalves LD, Silva EC and Knapp M (2010) Broad-spectrum arthropod resistance in hybrids between high and low-acylsugar tomato lines. Crop Science 50: 439-450.
Neiva IP, Andrade Júnior VC, Maluf WR, Oliveira CM and Maciel GM (2013) Role of allelochemicals and trichome density in the resistance of tomato to whitefly. Ciência e Agrotecnologia 37: 61-67.
Oliveira CM, Andrade Júnior VC, Maluf WR, Neiva IP and Maciel GM (2012) Resistance of tomato strains to the moth Tuta absoluta imparted by allelochemicals and trichome density. Ciência e Agrotecnologia 36: 45-52.
Pereira GVN, Maluf WR, Gonçalves LD, Nascimento IR, Gomes LAA and Licursi V (2008) Seleção para alto teor de acilaçúcares em genótipos de tomateiro e sua relação com a resistência ao ácaro vermelho (Tetranychus evansi) e à traça (Tuta absoluta). Ciência e Agrotecnologia 32: 996-1004.
Resende JTV, Cardoso MG, Maluf WR, Santos CD, Gonçalves LD, Resende LV and Naves FO (2002) Método colorimétrico para quantificação de acilaçúcar em genótipos de tomateiro. Ciência e Agrotecnologia 26: 1204-1208.
Resende JTV, Maluf WR, Faria MV, Pfann AZ and Nascimento IR (2006) Acylsugars in tomato leaflets confer resistance to the south american tomato pinworm, Tuta absoluta Meyr. Scientia Agricola 63: 20-25.
Resende JTV, Maluf WR, Cardoso MG, Faria MV, Gonçalves LD and Nascimento IR (2008) Resistance of tomato genotypes with high level of acylsugars to Tetranychus evansi. Scientia Agricola 65: 31-35.
Sato ME, Silva MZ, Silva RB, Souza Filho MF and Raga A (2009) Monitoramento da resistência de Tetranychus urticae Koch (Acari: Tetranychidae) a Abamectin e Fenpyroximate em diversas culturas no estado de São Paulo. Arquivos do Instituto Biológico 76: 217-223.
Sato ME (2015) Ácaro rajado em tomate tem assustado produtores. Revista campos & negócios. Available at <Available at http://www.revistacampoenegocios.com.br/acaro-rajado-em-tomate-tem-assustado-produtores >. Accessed on May 4, 2016.
» http://www.revistacampoenegocios.com.br/acaro-rajado-em-tomate-tem-assustado-produtores
Silva VF, Maluf WR, Cardoso MG, Gonçalves Neto AC, Maciel GM, Nízio DAC and Silva VAS (2009) Resistência mediada por aleloquímicos de genótipos de tomateiro à mosca-branca e ao ácaro-rajado. Pesquisa Agropecuária Brasileira 44: 1262-1269.
Silveira LFV, Polanczyk D and Pratissoli CR (2011) Franco Seleção de isolados de Bacillus thuringiensis Berliner para Tetranychus urticae Koch. Arquivos do Instituto Biológico 78: 273-278.
Weston PA and Snyder JC (1990) Thumbtack biossay: a quick method of measuring plant resistence to twospotted spider mites (Acari: Tetranychidae). Journal of Economic Entomology 83: 501-504

Publication Dates

Publication in this collection
Jan-Mar 2018

History

Received
13 June 2016
Accepted
07 May 2017

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

[1] ABCSEM - Associação Brasileira de Comércio de Sementes e Mudas (2012) Dados do setor de pesquisa de mercado de sementes de hortaliças. Available at <Available at www.abcsem.com.br/dadosdosegmento.php >. Accessed on May 3, 2016.
» www.abcsem.com.br/dadosdosegmento.php

[2] Cruz CD (2013) GENES: A software package for analysis in experimental statistics and quantitative genetics. Acta Scientiarum. Agronomy 35: 271-276.

[3] Czepak C, Albernaz KC, Vivian LM, Guimarães HO and Carvalhais T (2013) Primeiro registro de ocorrência deHelicoverpa armigera(Hübner) (Lepidoptera: Noctuidae) no Brasil. Pesquisa Agropecuária Tropical 43: 110-113.

[4] Ferreira DF (2000) Análises estatísticas por meio do Sisvar para Windows versão 4.0. In Anais da reunião anual da região brasileira da sociedade internacional de biometria 45. SIB, São Carlos, p. 255-258.

[5] Glas JJ, Schimmel BC, Alba JM, Escobar-bravo R, Schuurink RC and Kant MR (2012) Plant glandular trichomes as targets for breeding or engineering of resistance to herbivores. International Journal of Molecular Sciences 13: 17077-17103.

[6] Gonçalves LD, Maluf WR, Cardoso MG, Gomes LAA and Nascimento IR (2007) Herança de acilaçúcares em genótipos de tomateiro provenientes de cruzamento interespecífico. Pesquisa Agropecuária Brasileira 42: 699-705.

[7] Gonçalves Neto AC, Silva VF, Maluf WR, Maciel GM, Nizio DAC, Gomes LAA and Azevedo SM (2010) Resistência à traça-do-tomateiro em plantas com altos teores de acilaçúcares nas folhas. Horticultura Brasileira 28: 203-208.

[8] Li L, Zhao Y, McCaig BC, Wingerd BA, Wang J, Whalon ME, Pichersky E and Howe GA (2004) The tomato homolog of coronative-insensitive1 is required for the maternal control of seed maturation, jasmonate-signaled defense responses, and glandular trichome development. The Plant Cell 16: 126-143.

[9] Lucatti AF, van Heusden AW, de Vos RC, Visser RGF and Vosma B (2013) Differences in insect resistance between tomato species endemic to the Galapagos Islands. BMC Evolutionary Biology 13:175.

[10] Maciel GM, Maluf WR, Silva VF, Gonçalves Neto AC, Hayata L, Carvalho RC, Moretto P, Licursi V and Moretto DP (2009) Heterose e capacidade combinatória em linhagens de tomateiro na obtenção de híbridos com teores intermediários de acilaçúcares. Horticultura Brasileira 27: 1161-1167.

[11] Maciel GM, Maluf WR, Silva VF, Gonçalves Neto AC and Gomes LAA (2011) Híbridos pré-comerciais resistentes a Tuta absoluta obtidos de linhagem de tomateiro rica em acilaçúcares. Horticultura Brasileira 29: 151-156.

[12] Maciel GM and Silva EC (2014) Proposta metodológica para quantificação de acilaçúcares em folíolos de tomateiro. Horticultura Brasileira 32: 174-177.

[13] Maciel GM, Fernandes MAR, Melo OD and Oliveira CS (2016) Potencial agronômico de híbridos de minitomate com hábito de crescimento determinado e indeterminado. Horticultura Brasileira 34: 144-148.

[14] Maluf WR, Maciel GM, Gomes LAA, Cardoso MG, Gonçalves LD, Silva EC and Knapp M (2010) Broad-spectrum arthropod resistance in hybrids between high and low-acylsugar tomato lines. Crop Science 50: 439-450.

[15] Neiva IP, Andrade Júnior VC, Maluf WR, Oliveira CM and Maciel GM (2013) Role of allelochemicals and trichome density in the resistance of tomato to whitefly. Ciência e Agrotecnologia 37: 61-67.

[16] Oliveira CM, Andrade Júnior VC, Maluf WR, Neiva IP and Maciel GM (2012) Resistance of tomato strains to the moth Tuta absoluta imparted by allelochemicals and trichome density. Ciência e Agrotecnologia 36: 45-52.

[17] Pereira GVN, Maluf WR, Gonçalves LD, Nascimento IR, Gomes LAA and Licursi V (2008) Seleção para alto teor de acilaçúcares em genótipos de tomateiro e sua relação com a resistência ao ácaro vermelho (Tetranychus evansi) e à traça (Tuta absoluta). Ciência e Agrotecnologia 32: 996-1004.

[18] Resende JTV, Cardoso MG, Maluf WR, Santos CD, Gonçalves LD, Resende LV and Naves FO (2002) Método colorimétrico para quantificação de acilaçúcar em genótipos de tomateiro. Ciência e Agrotecnologia 26: 1204-1208.

[19] Resende JTV, Maluf WR, Faria MV, Pfann AZ and Nascimento IR (2006) Acylsugars in tomato leaflets confer resistance to the south american tomato pinworm, Tuta absoluta Meyr. Scientia Agricola 63: 20-25.

[20] Resende JTV, Maluf WR, Cardoso MG, Faria MV, Gonçalves LD and Nascimento IR (2008) Resistance of tomato genotypes with high level of acylsugars to Tetranychus evansi. Scientia Agricola 65: 31-35.

[21] Sato ME, Silva MZ, Silva RB, Souza Filho MF and Raga A (2009) Monitoramento da resistência de Tetranychus urticae Koch (Acari: Tetranychidae) a Abamectin e Fenpyroximate em diversas culturas no estado de São Paulo. Arquivos do Instituto Biológico 76: 217-223.

[22] Sato ME (2015) Ácaro rajado em tomate tem assustado produtores. Revista campos & negócios. Available at <Available at http://www.revistacampoenegocios.com.br/acaro-rajado-em-tomate-tem-assustado-produtores >. Accessed on May 4, 2016.
» http://www.revistacampoenegocios.com.br/acaro-rajado-em-tomate-tem-assustado-produtores

[23] Silva VF, Maluf WR, Cardoso MG, Gonçalves Neto AC, Maciel GM, Nízio DAC and Silva VAS (2009) Resistência mediada por aleloquímicos de genótipos de tomateiro à mosca-branca e ao ácaro-rajado. Pesquisa Agropecuária Brasileira 44: 1262-1269.

[24] Silveira LFV, Polanczyk D and Pratissoli CR (2011) Franco Seleção de isolados de Bacillus thuringiensis Berliner para Tetranychus urticae Koch. Arquivos do Instituto Biológico 78: 273-278.

[25] Weston PA and Snyder JC (1990) Thumbtack biossay: a quick method of measuring plant resistence to twospotted spider mites (Acari: Tetranychidae). Journal of Economic Entomology 83: 501-504

	Genotype¹	[ ] acylsugar	RS³ (%)
	Genotype¹	(nmoL cm^-2 of foliar area)	to LA-716	to UFU-040
T1	UFU-96-F₂BC₁#4	24.4 ab	-18.39	54.43
T2	UFU-102-F₂BC₁#8	25.1 ab	-16.05	58.86
T3	UFU-75-F₂BC₁#4	16.8 b	-43.81	6.33
T4	UFU-97-F₂BC₁#1	20.6 ab	-31.10	30.38
T5	UFU-76-F₂BC₁#2	18.5 b	-38.13	17.09
T6	UFU-96-F₂BC₁#2	18.2 b	-39.13	15.19
T7	UFU-97-F₂BC₁#2	19.2 ab	-35.79	21.52
T8	UFU-104-F₂BC₁#7	19.9 ab	-33.44	25.95
T9	UFU-113-F₂BC₁#2	17.8 b	-40.47	12.66
T10	UFU-114-F₂BC₁#2	20.2 ab	-32.44	27.85
T11	UFU-040	15.8 b	-47.16	0.00
T12	LA-716	29.9 a	0.00	89.24
	CV (%)	17.5
	Contrasts²	Contrasts of interest
C1	(T11) - (T1+ … +T10)/10	-4.27^*
C2	(T12) - (T1+ … +T10)/10	9.83^**
C3	(T11) - (T1+T2+T4)/3	-7.23^*
C4	(T12) - (T1+T2+T4)/3	6.53^*

		Glandular trichome type I, IV, VI and VII cm^-2 (Glas et al. 2012Glas JJ, Schimmel BC, Alba JM, Escobar-bravo R, Schuurink RC and Kant MR (2012) Plant glandular trichomes as targets for breeding or engineering of resistance to herbivores. International Journal of Molecular Sciences 13: 17077-17103. )		[ ] acylsugars (Resende et al. 2002Resende JTV, Cardoso MG, Maluf WR, Santos CD, Gonçalves LD, Resende LV and Naves FO (2002) Método colorimétrico para quantificação de acilaçúcar em genótipos de tomateiro. Ciência e Agrotecnologia 26: 1204-1208.)	RS³ in relation to acylsugar content (%)
	Genotype¹	Abaxial	Adaxial	(nmoL cm^-2 of foliar area)	LA-716	UFU-040
T1	UFU-96-F₂BC₂#2	1.2c	2.5bcd	15.43b	-49.33	-11.17
T2	UFU-96-F₂BC₂#7	3.4bc	1.4cd	19.37b	-36.39	11.51
T3	UFU-97-F₂BC₂#4	1.6c	4.7b	16.38b	-46.21	-5.70
T4	UFU-040	1.9c	0.9d	17.37b	-42.96	0.00
T5	UFU-102- F₂BC₂#8	5.6bc	4.5b	14.14b	-53.56	-18.60
T6	UFU-102- F₂BC₂#15	6.8b	4.3b	18.30b	-39.90	5.35
T7	UFU-102- F₂BC₂#13	5.4bc	3.9bc	28.68a	-5.81	65.11
T8	cv. Santa Clara	2.1c	2.4cd	12.81b	-57.93	-26.25
T9	Solanum pennellii	84.0a	76.4a	30.45a	0.00	75.30
	CV (%)	9.13	5.94	8.48
	Contrasts²	Contrasts of interest
C1	(T9) - (T1+ ... +T7)/6	80.0^**	72.0^**	11.73^**
C2	[(T8+T4)/2]- [(T1+ ... +T7)/6]	2.0	-2.3	-3.62
C3	(T7) - (T4+T8)/2	1.4	2.2	11.59^*

Genotypes/Treatments	Description
UFU-96-F₂BC₂#2	Genotype selected F₂BC₂, from the interspecific cross between Solanum pennellii versus Solanum lycopersicum (UFU-040). (homozygous recessive (spsp) for self-pruning).
UFU-96-F₂BC₂#7	Genotype selected F₂BC₂, from the interspecific cross between Solanum pennellii versus Solanum lycopersicum (UFU-040). (homozygous recessive (spsp) for self-pruning).
UFU-97-F₂BC₂#4	Genotype selected F₂BC₂, from the interspecific cross between Solanum pennellii versus Solanum lycopersicum (UFU-040). (homozygous recessive (spsp) for self-pruning).
UFU-040	Pre-commercial lineage with low acylsugar content (A.A). (homozygous recessive (spsp) for self-pruning) genotypic background similar to Santa Clara cultivar.
UFU-102-F₂BC₂#8	Genotype selected F₂BC₂, from the interspecific cross between Solanum pennellii versus Solanum lycopersicum (UFU-040). (homozygous recessive (spsp) for self-pruning).
UFU-102-F₂BC₂#15	Genotype selected F₂BC₂, from the interspecific cross between Solanum pennellii versus Solanum lycopersicum (UFU-040). (homozygous recessive (spsp) for self-pruning).
UFU-102-F₂BC₂#13	Genotype selected F₂BC₂, from the interspecific cross between Solanum pennellii versus Solanum lycopersicum (UFU-040). (homozygous recessive (spsp) for self-pruning).
Santa Clara	Commercial cultivar Santa Clara with low acylsugar content.
Solanum pennellii	Wild accession LA-716 with high acylsugar content and indeterminate growth habit (homozygous dominant (SPSP) for self-pruning).