Pentatomids associated with blackberry

Pasini, Mauricio Paulo Batistella; Dal'Col Lúcio, Alessandro

doi:10.1590/S1413-70542014000300005

Abstracts

Information concerning the presence of stink bugs in blackberry (Rubus spp.) in Brazil is sparse. This study aimed to identify the stink bug species associated with blackberry, to establish the daily dynamics and evaluate the fruits damage. The experiment was conducted in Santa Maria, Rio Grande do Sul State, Brazil, in blackberry orchard. Presence and evaluations of stink bugs were done weekly through visual and sweeping samplings at different day times. Five species of pentatomids were identified: Piezodorus guildinii, Nezara viridula, Euschistus heros, Dichelops furcatus and Edessa meditabunda. The bugs attack the drupelets producing a dark brown spot and wrinkled berries.

Dichelops furcatus; Euschistus heros; Edessa meditabunda; Nezara viridula; Piezodorus guildinii

São escassas as informações referentes à presença de pentatomídeos na amoreira-preta no Brasil (Rubus spp.). Este trabalho teve por objetivos de identificar as espécies de pentatomídeos associadas à amoreira-preta, realizar a análise faunística e determinar seus danos em frutos. O experimento foi conduzido em Santa Maria, Rio Grande do Sul, Brasil, em pomar de amoreira-preta. Semanalmente, foram realizadas avaliações visuais sobre amoras e amostragens por batimento para identificação dos pentatomídeos associados e caracterização de danos, realizadas em diferentes horários do dia. Foram determinadas cinco espécies de pentatomídeos associadas amoreira-preta: Piezodorus guildinii, Nezara viridula, Euschistus heros, Dichelops furcatus e Edessa meditabunda. Esses percevejos atacam as mini-drupas deixando-as com aspecto marrom escuro e enrugado.

Dichelops furcatus; Euschistus heros; Edessa meditabunda; Nezara viridula; Piezodorus guildinii

AGRICULTURAL SCIENCES

Pentatomids associated with blackberry

Pentatomídeos associados à amoreira-preta

Mauricio Paulo Batistella Pasini^I; Alessandro Dal'Col Lúcio^II

^IUniversidade Federal de Santa Maria/UFSM - Departamento de Fitotecnia - Avenida Roraima - n. 1000 - 97105-900 - Santa Maria - RS - Brasil, mauriciopasini@gmail.com

^IIUniversidade Federal de Santa Maria/UFSM - Departamento de Fitotecnia - Santa Maria - RS - Brasil

ABSTRACT

Information concerning the presence of stink bugs in blackberry (Rubus spp.) in Brazil is sparse. This study aimed to identify the stink bug species associated with blackberry, to establish the daily dynamics and evaluate the fruits damage. The experiment was conducted in Santa Maria, Rio Grande do Sul State, Brazil, in blackberry orchard. Presence and evaluations of stink bugs were done weekly through visual and sweeping samplings at different day times. Five species of pentatomids were identified: Piezodorus guildinii, Nezara viridula, Euschistus heros, Dichelops furcatus and Edessa meditabunda. The bugs attack the drupelets producing a dark brown spot and wrinkled berries.

Index terms: Dichelops furcatus, Euschistus heros, Edessa meditabunda, Nezara viridula, Piezodorus guildinii.

RESUMO

São escassas as informações referentes à presença de pentatomídeos na amoreira-preta no Brasil (Rubus spp.). Este trabalho teve por objetivos de identificar as espécies de pentatomídeos associadas à amoreira-preta, realizar a análise faunística e determinar seus danos em frutos. O experimento foi conduzido em Santa Maria, Rio Grande do Sul, Brasil, em pomar de amoreira-preta. Semanalmente, foram realizadas avaliações visuais sobre amoras e amostragens por batimento para identificação dos pentatomídeos associados e caracterização de danos, realizadas em diferentes horários do dia. Foram determinadas cinco espécies de pentatomídeos associadas amoreira-preta: Piezodorus guildinii, Nezara viridula, Euschistus heros, Dichelops furcatus e Edessa meditabunda. Esses percevejos atacam as mini-drupas deixando-as com aspecto marrom escuro e enrugado.

Termos para indexação: Dichelops furcatus, Euschistus heros, Edessa meditabunda, Nezara viridula, Piezodorus guildinii.

INTRODUCTION

The blackberry, Rubus spp. (Rosaceae), area has shown substantial increase in Rio Grande do Sul (RS) State, Brazil. This crop is an alternative to small scale growers, due to the low cost production (Antunes; Rasseira, 2004).

Stink bugs are common in annual crops, mainly corn, soybeans and rice. In absence of these crops stink bugs move to other crops to feed. Blackberry orchards are usually located close to annual crops, and they are appropriated host for stink bugs. No insect has been reported on blackberries in Brazil (Antunes; Rasseira, 2004, Pagot et al., 2007). In the United States, eight species of stink bugs have been reported associated with blackberry, including Nezara viridula (L.) and Euschistus spp. (Brennan et al., 2013).

Analysis of the faunal composition and insect activity are fundamental to the establishment of management strategies (Uramoto; Walter; Zucch, 2005). So, this study aimed to identify the stink bugs species associated with blackberries, establish the daily dynamics and determine fruit damage.

MATERIAL AND METHODS

The work was conducted in an experimental ten year old blackberry orchard, cv Guarani, during November and December 2011, at Santa Maria, Rio Grande do Sul, Brazil (Lat. -29.650313º and e Long. -54.07167º). The climate matches to Cfa according with köppen classification (Heldwein; Buriol; Streck; 2009). Samplings were performed throughout five weeks during fruit development in a delimited area of 1 x 60 m (60 m²). The data was collected at 8h, 10h, 14h, 16h and 18h.

Samplings were done by using a metal beat tray with area of 0.6 m² placed under the plant canopy. Ten beat samplings were done, five on each side of the canopy (East - E and Western - W), one for each plant.

The plants were beaten upon the tray and the insects preserved in Alcohol. At the same time a visual plant survey was done to detect bugs and quantify damages.

The data was analyzed as a factorial 2x5 with split plot in time (Factor A = both sides of the canopy in the main plot and Factor D = five different evaluation times in the subplot on time), in randomized block design with five replications considering the different day samplings as blocks. Data was tested for normality of errors by the Anderson Darling Test. When necessary data was transformed to (x+0.5)^1/2before performing Analysis of Variance and Regression Analysis.

Proportional comparisons between different stink bug populations were performed by using the frequency of individuals of each species (p_i = N_i / N), where n_i is the number of individuals of the species and N is the total number of individuals in of the sample. Estimations were assessed by the R software (R Development Core Team, 2012).

The faunal analysis allows characterizing the community structure and was based on the Shannon Diversity Index (H'), Pielou Equitability Index (J'), Simpson Index (1_s), Simpson Diversity Index (D_s), Simpson Equitability Index (ED) and the Constancy (C) (Uramoto; Walter; Zucch 2005; Zar, 2010). The H' index measures the degree of uncertainty in predicting which species belong to a randomly chosen individual and lower index value, lower degree of uncertainty, lower sample diversity. The J' and ED index refers to the individual's distribution pattern of species. The D_sindex reflects the probability that two randomly selected individuals in the community belong to the same species. The C refers percent of samples in a given species was present.

The index average was analyzed by factorial 2x5 with split plot in time (Factor A = both sides of the canopy in the main plot and Factor D = five different evaluation times in the subplot on time), in randomized block design with five replications considering the different day samplings as blocks. Data was tested for normality of errors by the Anderson Darling Test. When necessary data was transformed to (x+0.5)^1/2before performing Analysis of Variance and Regression Analysis.

RESULTS AND DISCUSSION

Five species of stink bugs (Hemiptera: Pentatomidae) were identified associated with Rubus spp.: Piezodorus guildinii (Westwod), Euschistus heros (F.), Dichelops furcatus (F.), Edessa meditabunda (F.) and Nezara viridula (L.). The first four species are new records for blackberries in the world (Panizzi, 1997; Bunde et al., 2010; Brennan et al., 2013). Plants at pod formation stage, unripe and ripe fruits are more attractive to stink bugs than posterior stages (Bundy; McPherson, 2000). Brennan et al. (2013) reported that increasing stink bugs population in blackberry is associated with the increased number of mature fruits.

Beat sampling showed a low presence of E. meditabunda (six individuals) and it was not included in the statistical analysis. D. furcatus showed a higher frequency, differing from the other species, exceeding two individuals per day. Populations of N. viridula and E. heros not differ statistically. P. guildinii was less frequent differing from the other species (Table 1). Only adults were found during the survey.

Thumbnail

Visual evaluations showed P. guildinii with the highest frequency, differing from the other species (Table 1). N. viridula, D. furcatus and E. heros were less frequent. All four species were always found in samplings (constancy) (Table 1). The exposure and strong association between P. guildinii with fruits can account for the differences between beat and visual samplings

The analysis of variance of beating sampling for all four species showed only a significant effect of time factor: However, for the species P. guildinii and N. viridula was significant interaction between both factors. The best fitting model was the quadratic regression. In all species, the sampled population decreased from 8h until 12h (Figure 1) and increased from 14h. The presence of the insects was highest at 8h and 18h. It has already been reported that adult females of N. viridula mainly feed during the night (Shearer; Jones, 1996). Between 10h and 14h the insects probably move to other plant sectors, being difficult to reach throughout the sampling method.

The plant sides did not affect the sample population for the species E. heros and D. furcatus, however, for the stink bugs species P. guildinii e N. viridula the canopy influenced the sampling population, having a similar behavior for this stink bugs species as shown in figure 1.

The analysis of variance for the visual assessments showed a significant effect of time factor and not significant for the plant side. The best model fits with the quadratic regression (Figure 2). Observations of insect presence showed less insects during warmer hours (12h) increasing in more cooler hours (Figure 2). A similar trend was found by Shearer and Jones (1996) with adult females of N. viridula.

Four stink bug species associated with blackberry, P. guildinii (Figure 3), D. furcatus (Figure 4), E. heros (Figure 5) and N. viridula, caused wrinkled drupelet appearance and presence of a dark brown spot.

Differences in diversity index, equitability and dominance were found only between sampling. The best adjustment corresponded to the quadratic regression model (Figure 6). The diversity and equitability decreased from the 8h the 14h and increased from the 14h the 18h (Figure 6). High values of diversity indices indicate larger degree of uncertainty in predicting which species belong to a randomly chosen individual, since high values of equitability give the notion of a uniform distribution of individuals by species exist (Zar, 2010). The values of highest diversity also indicated greater uniformity, ie, constant values of the samples stink bugs (Figure 6).

CONCLUSIONS

Five species of blackberry pentatomids were determined associated with blackberries: Piezodorus guildinii, Nezara viridula, Euschistus heros, Dichelops furcatus and Edessa meditabunda. These bugs feed on the drupelets producing a dark brown spot and wrinkled fruits.

ACKNOWLEDGEMENT

To the teacher Dionísio Link (in memoriam) for the research orientation.

Received in february 13, 2014 and approved in april 8, 2014

ANTUNES, L. E. C.; RASEIRA, M. C. B. Aspectos Técnicos da Cultura da Amora-preta. Pelotas: Embrapa Clima Temperado, 2004. 54 p. (Documentos, 122).
BRENNAN, S. A. et al. Species composition, monitoring, and feeding injury of stink bugs (Heteroptera: Pentatomidae) in blackberry. Journal of Economic Entomology, 106(2):912-923, 2013.
BUNDE, P. R. S. et al. Pentatomidade (Hemiptera: Heteroptera) of the Pampa biome: Serra do Sudeste and Parque de Espinilho da Barra do Quaraí, Rio Grande do Sul, Brazil. Biota Neotropica.10(3):83-88, 2010.
BUNDY, C. S.; MCPHERSON, R. M. Dynamics and seasonal abundance of stink bugs (Heteroptera: Pentatomidae) in a cotton soybean ecosystem. Journal of Economic Entomology 93:697-706, 2000.
HOWE, G. A.; JANDER, G. Plant Immunity to insect herbivores. Annual Review of Plant Biology 59:41-66, 2008.
HELDWEIN, A. B.; BURIOL, A. G.; STRECK, N. A. O clima de Santa Maria. Ciência & Ambiente 38:43-58, 2009.
PAGOT, E. et al. Cultivo da amora-preta Bento Gonçalves: Embrapa Uva e Vinho, 2007. 12p. (Circular Técnica, 75).
PANIZZI, A. R. Wild hosts of pentatomids: ecological significance and role in their pest status on crops. Annual Review Entomology 42:99-122, 1997.
R DEVELOPMENT CORE TEAM. R: A language and environment for statistical computing R Foundation for Statistical Computing, Vienna, Austria, 2012.
SHEARER, P. W.; JONES, V. P. Diel feeding pattern of adult female southern green stink bug (Hemiptera: Pentatomidae). Eniromental Entomology 25(3):559-602, 1996.
URAMOTO, K.; WALDER, J. M. M.; ZUCCHI, R. A. Análise quantitativa e distribuição de populações de espécies de Anastrepha (Diptera: Tephritidae) no campus Luiz de Queiroz, Piracicaba, SP. Neotropical Entomology 4(1):33-39, 2005.
ZAR, J. H. Biostatistical analysis, 5ed. Upper Sadle River, New Jersey, 2010, 947p.

Publication Dates

Publication in this collection
01 July 2014
Date of issue
June 2014

History

Accepted
08 Apr 2014
Received
13 Feb 2014

This work is licensed under a Creative Commons Attribution 4.0 International License.

[1] ANTUNES, L. E. C.; RASEIRA, M. C. B. Aspectos Técnicos da Cultura da Amora-preta. Pelotas: Embrapa Clima Temperado, 2004. 54 p. (Documentos, 122).

[2] BRENNAN, S. A. et al. Species composition, monitoring, and feeding injury of stink bugs (Heteroptera: Pentatomidae) in blackberry. Journal of Economic Entomology, 106(2):912-923, 2013.

[3] BUNDE, P. R. S. et al. Pentatomidade (Hemiptera: Heteroptera) of the Pampa biome: Serra do Sudeste and Parque de Espinilho da Barra do Quaraí, Rio Grande do Sul, Brazil. Biota Neotropica.10(3):83-88, 2010.

[4] BUNDY, C. S.; MCPHERSON, R. M. Dynamics and seasonal abundance of stink bugs (Heteroptera: Pentatomidae) in a cotton soybean ecosystem. Journal of Economic Entomology 93:697-706, 2000.

[5] HOWE, G. A.; JANDER, G. Plant Immunity to insect herbivores. Annual Review of Plant Biology 59:41-66, 2008.

[6] HELDWEIN, A. B.; BURIOL, A. G.; STRECK, N. A. O clima de Santa Maria. Ciência & Ambiente 38:43-58, 2009.

[7] PAGOT, E. et al. Cultivo da amora-preta Bento Gonçalves: Embrapa Uva e Vinho, 2007. 12p. (Circular Técnica, 75).

[8] PANIZZI, A. R. Wild hosts of pentatomids: ecological significance and role in their pest status on crops. Annual Review Entomology 42:99-122, 1997.

[9] R DEVELOPMENT CORE TEAM. R: A language and environment for statistical computing R Foundation for Statistical Computing, Vienna, Austria, 2012.

[10] SHEARER, P. W.; JONES, V. P. Diel feeding pattern of adult female southern green stink bug (Hemiptera: Pentatomidae). Eniromental Entomology 25(3):559-602, 1996.

[11] URAMOTO, K.; WALDER, J. M. M.; ZUCCHI, R. A. Análise quantitativa e distribuição de populações de espécies de Anastrepha (Diptera: Tephritidae) no campus Luiz de Queiroz, Piracicaba, SP. Neotropical Entomology 4(1):33-39, 2005.

[12] ZAR, J. H. Biostatistical analysis, 5ed. Upper Sadle River, New Jersey, 2010, 947p.