Chronological analysis of the physiological quality of diaspores of <i>Myracrodruon urundeuva</i> Fr. All. in semiarid regions

Azevedo, Aderdilania Iane Barbosa de; Silva, Givanildo Zildo da; Bruno, Riselane de Lucena Alcântara; Andrade, Alberício Pereira de; Cruz, José de Oliveira

doi:10.4025/actasciagron.v40i1.39423

ABSTRACT.

The objective of this study was to evaluate the physiological quality of diaspores from Myracrodruon urundeuva mother trees developing in the Cariri region of the state of Paraíba, Brazil. The seeds were collected during three consecutive years and from different areas of the Cariri region. The seed collection areas comprised two sites in the municipality of Boa Vista and one in the municipality of São João do Cariri. The diaspores had their water content determined and were submitted to the following tests: germination, seedling emergence, first count of germination and seedling emergence (within 5 days), and speed of germination and seedling emergence. The treatment means were compared using the deviance statistic. The collection years and collection areas were compared by the Tukey test at a 5% probability level. The comparison between mother trees was made through principal component analysis and cluster analysis. The detected variation in the quality of M. urundeuva diaspores is dependent on environmental conditions. The physiological quality of M. urundeuva diaspores varies according to mother tree, collection area and year. Mother trees of groups 1 and 2 are the most promising since they included representatives of all three areas and produced diaspores of high physiological quality.

Keywords:
aroeira; physiological quality; seeds; Caatinga

RESUMO.

Neste estudo objetivou-se analisar a qualidade fisiológica de diásporos de matrizes de Myracrodruon urundeuva, em três anos de coletas e diferentes áreas do Cariri paraibano, Brasil. Uma área no município de São João do Cariri, e duas em Boa Vista foram demarcadas, cujas matrizes foram avaliadas pela viabilidade e vigor de seus diásporos em três anos consecutivos. Diásporos das matrizes selecionadas foram submetidos à determinação do teor de água e as seguintes variáveis: germinação, emergência de plântulas, primeira contagem de germinação e de emergência de plântulas, índice de velocidade de germinação e de emergência de plântulas. A significância dos efeitos foi realizada através da estatística deviance. Para os fatores anos e áreas de coleta as médias foram comparadas pelo teste de Tukey a 5% de probabilidade e para a variação entre as matrizes realizou-se análise de componentes principais e agrupamento. A variação da qualidade fisiológica de diásporos de M. urundeuva é dependente dos fatores ambientais. A qualidade fisiológica de diásporos de M. urundeuva varia em relação às matrizes, áreas e anos de coleta. As matrizes dos grupos 1 e 2 são as mais promissoras por conterem representantes das três áreas e produzirem diásporos com elevado potencial fisiológico.

Palavras-chave:
aroeira; qualidade fisiológica; sementes; Caatinga

Introduction

The Caatinga, a biome in the Northeast Region of Brazil, typically has a semiarid climate with plants physiologically adapted to extreme environmental conditions such as high temperatures, high radiation levels and evaporation; this specialization is an important reason for their high rate of endemism (Berger et al., 2007Berger, A. P. A., Ranal, M., Lopes, S. W., Dorneles, M. C., Santana, D. G., & Pereira, R. S. (2007). Emergência de plântulas de Myracrodruon urundeuva Allemão (Anacardiaceae) do Vale do Rio Araguari, MG. Revista Brasileira Biosciência, 5(2), 1029-1031.). However, the characteristics of the plants occurring in this biome are not fully known, and this complicates research efforts, especially those taking place at the phase of selection, owing to the low number of individuals and the need to collect winged diaspores.

Myracrodruon urundeuva Fr. All. is a perennial species of the Anacardiaceae family, native to Brazil and occurring abundantly in the Caatinga region, where it is also known as “aroeira”, “aroeira-do-sertâo”, “aroeira-do-cerrado”, and “aroeira-preta” (Lorenzi, 2008Lorenzi, H. (2008). Árvores brasileiras: manual de identificação e cultivo de plantas arbóreas do Brasil (5a ed.). Nova Odessa, SP: Instituto Plantarum.; Pereira, Barros, Brito, Duarte, & Maia, 2014Pereira, P. S., Barros, L. M., Brito, A. M., Duarte, A. E., & Maia, A. J. (2014). Uso da Myracroduon urundeuva Allemão (aroeira do sertão) pelos agricultores no tratamento de doenças. Revista Cubana de Plantas Medicinales, 19(1), 51-60.).

Since it has the characteristics of pioneer species (a deep root system and adaptation to adverse soil and climate conditions), M. urundeuva is recommended for the recuperation of degraded ecosystems, reforestation, and economic wood exploitation (Lorenzi, 2008Lorenzi, H. (2008). Árvores brasileiras: manual de identificação e cultivo de plantas arbóreas do Brasil (5a ed.). Nova Odessa, SP: Instituto Plantarum.; Kratka & Correia, 2015Kratka, P. C., & Correia, C. R. M. A. (2015). Crescimento inicial de aroeira do sertão (Myracrodruon urundeuva Allemão) em diferentes substratos. Revista Árvore, 39(3), 551-559. doi: 10.1590/0100-67622015000300016
https://doi.org/10.1590/0100-67622015000... ; Mota, Silva, Souza, Oliveira, & Santos, 2015Mota, A. R., Silva, R. J., Souza, P. B., Oliveira, L. M., & Santos, A. C. M. (2015). Efeito da substância húmica na germinação de sementes de Myracrodruon urundeuva Fr. All. Revista Verde de Agroecologia e Desenvolvimento Sustentável, 10(3), 26-30. doi: 10.18378/ rvads.v10i3.3491
https://doi.org/10.18378/ rvads.v10i3.34... ; Canuto, Silva, Moraes, & Resende, 2016Canuto, D. S. O., Silva, A. M., Moraes, M. L. T., & Resende, M. D. L. (2016). Estabilidade e adaptabilidade em testes de progênies de Myracrodruon urundeuva sob quatro sistemas de plantio. Cerne, 22(2), 171-180. doi: 10.1590/01047760201622021978
https://doi.org/10.1590/0104776020162202... ). In addition, the presence of phytochemical compounds in its bark, such as natural dimeric chalcones, which are anti-inflammatory products, and urundevein A and B, indicates the pharmaceutical potential of this species (Souza et al., 2007Souza, S. M. C., Aquino, L. C. M., Milach Jr, A. C., Bandeira, M. A. M., Nobre, M. E. P., & Viana, G. S. B. (2007). Antiinflammatory and antiulcer properties of tannins from Myracrodruon urundeuva Allemão (Anacardiaceae) in Rodents. Phytotherapy Research, 21(3), 220-225. doi: 10.1002/ptr.2011
https://doi.org/10.1002/ptr.2011... ; Carlini, Duarte-Almeida, Rodrigues, & Tabach, 2010Carlini, E. A., Duarte-Almeida, J. M., Rodrigues, E., & Tabach, R. (2010). Antiulcer effect of the pepper trees Schinus terebinthifolius Raddi (aroeira-da-praia) and Myracrodruon urundeuva Allemão, Anacardiaceae (aroeira-do-sertão). Revista Brasileira de Farmacognosia, 20(2), 140-146. doi: 10.1590/S0102-695X2010000200001
https://doi.org/10.1590/S0102-695X201000... ; Pereira et al., 2014Pereira, P. S., Barros, L. M., Brito, A. M., Duarte, A. E., & Maia, A. J. (2014). Uso da Myracroduon urundeuva Allemão (aroeira do sertão) pelos agricultores no tratamento de doenças. Revista Cubana de Plantas Medicinales, 19(1), 51-60.; Machado, Sartori, Damante, Dokkedal, & Oliveira, 2016Machado, A. C., Sartori, P. F., Damante, C. A., Dokkedal, A. L. D., & Oliveira, R. C. (2016). Viability of Human Gingival Fibroblast (FGH) treated with ethanolic “aroeira” extract (Myracrodruon urundeuva Allemão). Brazilian Archives of Biology and Technology, 59 (e16150335), 1-7. doi: 10.1590/1678-4324-2016150335
https://doi.org/10.1590/1678-4324-201615... ).

Owing to its social and economic importance, M. urundeuva has been subject to years of intense and predatory exploitation, which has led to a devastation of its natural populations (Canuto et al., 2016Canuto, D. S. O., Silva, A. M., Moraes, M. L. T., & Resende, M. D. L. (2016). Estabilidade e adaptabilidade em testes de progênies de Myracrodruon urundeuva sob quatro sistemas de plantio. Cerne, 22(2), 171-180. doi: 10.1590/01047760201622021978
https://doi.org/10.1590/0104776020162202... ). Therefore, in order to administer programs for reforestation and the preservation of genetic resources, it is necessary to expand our knowledge about the germination and propagation of M. urundeuva, since the currently available information about the physiological quality of its seeds is not conclusive (Virgens, Castro, Fernandez, & Pelacani, 2012Virgens, I. O., Castro, R. D., Fernandez, L. G., & Pelacani, C. R. (2012). Comportamento fisiológico de sementes de Myracrodruon urundeuva Fr. All. (Anarcadiaceae) submetidas a fatores abióticos. Ciência Florestal, 22(4), 681-692. doi: 10.5902/198050987550
https://doi.org/10.5902/198050987550... ; Diniz, Diniz, Azeredo, Souza, & Pereira, 2015Souza, P. F., Santana, R. C., Fernandes, J. S. C., Oliveira, L. F. R., Machado, E. L. M., Nery, M. C., & Oliveira, M. L. R. (2015). Germinação e crescimento inicial entre matrizes de duas espécies do gênero Hymenaea. Floresta e Ambiente, 22(4), 532-540. doi: 10.1590/2179-8087.067613
https://doi.org/10.1590/2179-8087.067613... ).

To produce representative plantlets and to plant thickets for reforestation or production, it is necessary to work with thoroughly mixed seeds representing at least 12 to 13 mother trees. However, studies concerning the variability among mother trees in terms of seed germination are relatively scarce (Santos, Paula, Sabonaro, & Valadares, 2009Santos, F. S., Paula, R. C., Sabonaro, D. Z., & Valadares, J. (2009). Biometria e qualidade fisiológica de sementes de diferentes matrizes de Tabebuia chrysotricha (Mart. Ex A. DC.) StandI. Scientia Florestalis, 37(82), 163-173.; Souza et al., 2015Souza, P. F., Santana, R. C., Fernandes, J. S. C., Oliveira, L. F. R., Machado, E. L. M., Nery, M. C., & Oliveira, M. L. R. (2015). Germinação e crescimento inicial entre matrizes de duas espécies do gênero Hymenaea. Floresta e Ambiente, 22(4), 532-540. doi: 10.1590/2179-8087.067613
https://doi.org/10.1590/2179-8087.067613... ), necessitating new research works to obtain more practical results.

On the other hand, the selection of individual plants with desirable performance characteristics may be carried out early on the basis of seed physiological quality (Martins-Corder & Saldanha, 2006Martins-Corder, M. P., & Saldanha, C. W. (2006). Germinação de sementes e crescimento de plântulas de diferentes progênies de Euterpe edulis Mart. Revista Árvore, 30(5), 693-699. doi: 10.1590/S0100-67622006000500002
https://doi.org/10.1590/S0100-6762200600... ), as determined by seedling emergence and vigor tests. This enables the production of plantlets on more efficient commercial scales by reducing mean germination time and increasing emergence uniformity and seedling size (Martins, Bovi, Oliveira, & Vieira, 2013Martins, C. C., Bovi, M. L. A., Oliveira, S. S. C., & Vieira, R. D. (2013). Emergência e crescimento inicial de plântulas de Archontophoenix cunninghamiana H. Wendl. & Drude provenientes de sementes de diferentes plantas matrizes. Ciência Rural, 43(6), 1006-1011. doi: 10.1590/S0103-84782013005000051
https://doi.org/10.1590/S0103-8478201300... ).

Thus, the objective of this project was to evaluate the physiological quality of M. urundeuva diaspores collected from different mother trees during three years in different areas of the Cariri region in the State of Paraíba, Brazil.

Material and method

This study was carried out with M. urundeuva diaspores collected in the municipalities of São João do Cariri and Boa Vista, in the Brazilian State of Paraíba. In the municipality of Boa Vista, the diaspores were collected from two areas.

The municipality of São João do Cariri is located in the Eastern Cariri microregion at the geographical coordinates of 7°22′45.1′′S and 36°31′47.2′′W, with an altitude of 400 to 600 m above sea level and a semiarid BSh climate. The locale has a mean annual rainfall of 400 mm, a mean minimum temperature of 22.1°C and a mean maximum of 27.2°C; the mean relative humidity is 70% (Köppen & Geiger, 1928Köppen, W., & Geiger, R. (1928). Klimate der Erde. Gotha: Verlag Justus Perthes. Wall-map 150cm x 200cm.; IBGE, 2015Instituto Brasileiro de Geografia e Estatística [IBGE]. (2015). Cidades: Paraíba: informações estatísticas. In Censo Demográfico 2015. Retrieved on July 29, 2017, from Retrieved on July 29, 2017, from http://www.ibge.gov.br .
http://www.ibge.gov.br... ).

The municipality of Boa Vista is located in the Campina Grande microregion at the geographical coordinates of 7°15′34′′S and 36°14′24′′W, with a mean altitude of 493 m above sea level, and the climate of the region is semiarid, classified as BSh. The locale has a mean yearly precipitation of 500 mm, a mean minimum temperature of 16.8°C, and a mean maximum of 29.2°C; the mean relative humidity is 65% (Köppen & Geiger, 1928Köppen, W., & Geiger, R. (1928). Klimate der Erde. Gotha: Verlag Justus Perthes. Wall-map 150cm x 200cm.; IBGE, 2015Instituto Brasileiro de Geografia e Estatística [IBGE]. (2015). Cidades: Paraíba: informações estatísticas. In Censo Demográfico 2015. Retrieved on July 29, 2017, from Retrieved on July 29, 2017, from http://www.ibge.gov.br .
http://www.ibge.gov.br... ).

M. urundeuva mother trees were selected and marked using the trail method as the sampling criterion. This strategy is viewed as optimal for achieving the highest possible number of mother trees, which are distributed in all areas. The trees were selected considering the size of the M. urundeuva population the areas, as well as canopy formation and sanitary appearance; the selected trees were georeferenced using GPS and identified with wood pickets and satin ribbons.

In each area, mature diaspores from the selected mother trees were collected between September and December of the three consecutive years of the experiment (2012, 2013, and 2014). However, owing to the characteristic temporal and spatial variation in the production of diaspores by this species, the number of mother trees varied between areas in the last two years - in the final two years, at the time the observations were being made, some of the trees had produced few or no diaspores, thus making it impossible to collect any diaspores (Table 1).

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Table 1
Distribution of the Myracrodruon urundeuva mother trees selected for diaspore collection during three consecutive years in the municipalities of São João do Cariri and Boa Vista in the State of Paraíba, Brazil.

Each year, the collected diaspores were transported in thermic boxes to the Seed Analysis Laboratory of the Plant Production and Environmental Sciences Department of the Federal University of Paraíba (UFPB), located in Areia in the state of Paraíba; at the laboratory, the diaspores were submitted to processing for the removal of the wings. Subsequently, the water content of the diaspores was determined by drying them in an oven at 105 ± 3°C for 24 hours (Brasil, 2009Brasil. Ministério da Agricultura e da Reforma Agrária. (2009). Regras para análise de sementes. Brasília, DF: SNDA/DNDV/CLAV.). For that measurement, four replicates of 20 diaspores each were used.

Before being submitted to the germination test, the diaspores were disinfested with sodium hypochlorite at a concentration of 0.5% for 5 minutes. Subsequently, four sets of 25 diaspores per individual sample were sown in 11.0 x 11.0 x 3.5 cm transparent plastic boxes in a commercial vermiculite substratum with a mean granulometry and a water retention capacity of 60%. Then, the diaspores were placed in a germination chamber at a constant temperature of 25°C. Counts were taken five and ten days after sowing (Pacheco, Matos, Ferreira, Feliciano, & Pinto, 2006Pacheco, M. V., Matos, V. P., Ferreira, R. L. C., Feliciano, A. L. P., & Pinto, K. M. S. (2006). Efeito de temperaturas e substratos na germinação de sementes de Myracrodruon urundeuva Fr. All. (Anacardiaceae). Revista Árvore, 30(3), 359-367. doi: 10.1590/S0100-67622006000300006
https://doi.org/10.1590/S0100-6762200600... ).

Seed vigor was evaluated by means of the following tests:

Seedling emergence in sand - the test was conducted in a protected environment with a semicircular electroplated steel roof covered with a polyethylene film and the sides covered with thin plastic mesh. Four samples of 25 diaspores were submitted to the disinfestation procedure previously described. Then, they were sown at a depth of 1 cm in washed and sterilized sand. Seedling counts were taken on the fifth and tenth days after sowing. Any seedling with its hypocotyl loop extending above the substratum level was considered an emerged seedling.

First count of germination and seedling emergence - this measure was defined as the total number of seedlings emerged by the fifth day after sowing.

Speed of germination and seedling emergence indexes - these measures were determined according to the equation proposed by Maguire (1962Maguire, J. D. (1962). Speed of germination-aid in selection and evaluation for seedlings emergence and vigor. Crop Science, 2(1), 176-177.).

Treatment replications were distributed according to a completely random design. For data analysis, general linear models were used, assuming the beta distribution for germination, emergence and first count of germination percentages and a log-normal distribution for the speed indexes, considering collection years and loci. The comparison between means was made by the Tukey test at a 5% probability level. Subsequently, principal component analysis and cluster analysis were performed.

Result and discussion

The evaluated M. urundeuva diaspores showed low initial water content variation between samples from the different areas and years (2012, 2013, and 2014: 10.6 ± 0.6, 10.7 ± 0.6, and 11.5 ± 1.2%, respectively). This is an important fact in the evaluation of diaspore quality, since the uniformity of water content is indispensable for standardizing these evaluations and achieving trustworthy results (Marcos Filho, 2015Marcos Filho, J. (2015). Seed vigor testing: an overview of the past, present and future perspective. Scientia Agricola, 72(4), 363-374. doi: 10.1590/0103-9016-2015-0007
https://doi.org/10.1590/0103-9016-2015-0... ). Similar results were reported by Lucio, Homrich, and Storcki (2007Lucio, A. D. C., Homrich, F. D. O. F. L., & Storcki, L. S. J. L. L. (2007). Relações entre variáveis nas análises de sementes de espécies florestais nativas do Rio Grande do Sul. Ciência Rural, 37(3), 697-704. doi: 10.1590/S0103-84782007000300015
https://doi.org/10.1590/S0103-8478200700... ) and Virgens et al. (2012Virgens, I. O., Castro, R. D., Fernandez, L. G., & Pelacani, C. R. (2012). Comportamento fisiológico de sementes de Myracrodruon urundeuva Fr. All. (Anarcadiaceae) submetidas a fatores abióticos. Ciência Florestal, 22(4), 681-692. doi: 10.5902/198050987550
https://doi.org/10.5902/198050987550... ) - initial diaspore water content of 10.1 and 9.6%, respectively.

The germination test, as well as the tests for the speed of germination index and first count of germination, showed that the interaction between area and collection year was not statistically significant. The other variables showed significant responses. When the isolated factors were considered, all variables had significant responses, except for germination and speed of germination in relation to the year factor (Table 2).

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Table 2
Analysis of variance results for the germination test (G), first count of germination (FCG), speed of germination index (SGI), emergence (E), first count of emergence (FCE), and speed of emergence index (SEI) of Myracrodruon urundeuva diaspores collected during three consecutive years in the municipalities of Boa Vista and São João do Cariri, State of Paraíba, Brazil.

It is important to emphasize that, in the last two years of observation, there was a reduction in the number of trees selected for the collection of diaspores (Table 1). This was due to the very low number of diaspores produced by some mother trees.

Among production factors, rainfall is one that acts by inducing physiological response mechanisms in plant. During the collection periods, seasonal variation of rain precipitation was verified; in the first year, the collecting of diaspores occurred under dry conditions, which were preceded by a rainy period that enabled adequate production of fruits by a larger number of mother trees (Figure 1).

The occurrence of phenological events in some species is not determined primarily by rain but by the level of water available to the plants (Borchert & Rivera, 2001Borchert, R., & Rivera, G. (2001). Phothoperiodic control of seasonal development and dormancy in tropical stem suculent tress. Tree Physiology, 21(4), 213-221. doi: 10.1093/treephys/21.4.213
https://doi.org/10.1093/treephys/21.4.21... ). Therefore, during the dry season, when rain is scarce, the species, as a consequence of the end of the reproductive phenophase, express all their production of dry fruits, anemochorics, small seeds, orthodox (Griz & Machado, 2001Griz, L. M. S., & Machado, I. P. S. (2001). Fruiting phenology and seed dispersal syndromes in caatinga, a tropical dry forest in the northeast of Brazil. Journal of Tropical Ecology, 17(2), 303-321. doi: 10.1017/S0266467401001201
https://doi.org/10.1017/S026646740100120... ; Ragusa-Netto & Silva, 2007Ragusa-Netto, J., & Silva, R. R. (2007). Canopy phenology of a dry forest in western Brazil. Brazilian Journal of Biology, 67(3), 569-575. doi: 10.1590/S1519-69842007000300024
https://doi.org/10.1590/S1519-6984200700... ; Silva, Prata, Mello, & Santos, 2013Silva, A. C. D. C., Prata, A. P. D. N., Mello, A. A. D., & Santos, A. C. A. D. S. (2013). Síndromes de dispersão de Angiospermas em uma Unidade de Conservação na Caatinga, SE, Brasil. Hoehnea, 40(4), 601-609. doi: 10.1590/S2236-89062013000400003
https://doi.org/10.1590/S2236-8906201300... ; Japiassú, Lopes, Dantas, & Nóbrega, 2016Japiassú, A., Lopes, K. P., Dantas, J. G., & Nóbrega, J. S. (2016). Fenologia de quatro espécies arbóreas da Caatinga no Semiárido Paraibano. Revista Verde de Agroecologia e Desenvolvimento Sustentável, 11(4), 34-43. doi: 10.18378/rvads.v11i4.4509
https://doi.org/10.18378/rvads.v11i4.450... ).

The rain precipitation pulses taking place in a given area increase the water level of the system. However, the amount of water that becomes available for use by plants depends on factors such as soil shallowness and proximity to rock formations that make difficult water penetration in the soil profile. Therefore, the production of leaves and fruits is dependent on the amount of available water; by analogy, variability is expected among different mother trees of the same species (Andrade, Souza, Silva, Silva, & Lima, 2006Andrade, A. P., Souza, E. S., Silva, I. D., Silva, I. F., & Lima, J. R. S. (2006). Produção animal no bioma caatinga: paradigmas dos pulsos-reserva. Revista Brasileira de Zootecnia, 35(1), 138-155. Suplemento especial.).

Figure 1
Rain precipitation during the years 2012, 2013, and 2014 in the areas where Myracrodruon urundeuva diaspores were collected in the municipalities of São João do Cariri (A) and Boa Vista (B), in the state of Paraíba, Brazil.

In addition to those aspects, Santos, Vieira, Fagundes, Nunes, and Gusmão (2007Santos, R. M., Vieira, F. A., Fagundes, M., Nunes, Y. F. R., & Gusmão, E. (2007). Riqueza e similaridade florística de oito remanescentes florestais no Norte de Minas Gerais, Brasil. Revista Árvore, 31(1), 135-144. doi: 10.1590/S0100-67622007000100015.
https://doi.org/10.1590/S0100-6762200700... ) report that, within the same forest species, individual variations among trees can be found, these differences being due to environmental influences during seed development and to genetic variability; their report is in agreement with the results reported herein. According to the aforementioned authors, these factors have been mentioned as the main causes of the variations in the germination process. Similarly, Lima, Bruno, Silva, Pacheco, and Alves (2014Lima, C. R., Bruno, R. L. A., Silva, K. R. G., Pacheco, M. V., & Alves, E. U. (2014). Qualidade fisiológica de sementes de diferentes árvores matrizes de Poincianella pyramidalis (Tul.) L. P. Queiroz. Revista Ciência Agronômica, 45(2), 370-378.) report variations in seed physiological quality in Poincianella pyramidalis (Tul.) L.P. Queiroz (Fabaceae) mother plants growing in the same collection area.

The germination rate of the collected M. urundeuva diaspores varied between 4% and 93%. A similarly large variation (between 16% and 90%) was also reported by (Dorneles, Ranal, & Santana, 2005Dorneles, M. C., Ranal, M. A., & Santana, D. G. (2005). Germinação de diásporos recém-colhidos de Myracrodruon urundeuva Allemão (Anacardiaceae) ocorrente no cerrado do Brasil Central. Revista Brasileira de Botânica, 28(2), 399-408.; Pacheco et al., 2006Pacheco, M. V., Matos, V. P., Ferreira, R. L. C., Feliciano, A. L. P., & Pinto, K. M. S. (2006). Efeito de temperaturas e substratos na germinação de sementes de Myracrodruon urundeuva Fr. All. (Anacardiaceae). Revista Árvore, 30(3), 359-367. doi: 10.1590/S0100-67622006000300006
https://doi.org/10.1590/S0100-6762200600... ; Nunes, Fagundes, Almeida, & Veloso, 2008Nunes, Y. R. F., Fagundes, M., Almeida, H. S., & Veloso, M. D. M. (2008). Aspectos ecológicos da aroeira (Myracrodruon urundeuva Allemão - Anacardiaceae): fenologia e germinação de sementes. Revista Árvore, 32(2), 248-252. doi: 10.1590/S0100-67622008000200006.
https://doi.org/10.1590/S0100-6762200800... ; Guedes et al., 2011Guedes, R. S., Alves, E. U., Gonçalves, E. P., Colares, P. N. Q., Medeiros, M. S. D., & Viana, J. S. (2011). Germination and vigor of Myracrodruon urundeuva Allemão seeds in different substrates and temperatures. Revista Árvore, 35(5), 975-982. doi: 10.1590/S0100-67622011000600003
https://doi.org/10.1590/S0100-6762201100... ; Virgens et al., 2012Virgens, I. O., Castro, R. D., Fernandez, L. G., & Pelacani, C. R. (2012). Comportamento fisiológico de sementes de Myracrodruon urundeuva Fr. All. (Anarcadiaceae) submetidas a fatores abióticos. Ciência Florestal, 22(4), 681-692. doi: 10.5902/198050987550
https://doi.org/10.5902/198050987550... ; Scalon, Scalon Filho, & Masetto, 2012Scalon, S. P. Q., Scalon Filho, H., & Masetto, T. E. (2012). Aspecto da germinação e desenvolvimento inicial de plântulas de aroeira. Cerne, 18(4), 533-539. doi: 10.1590/S0104-77602012000400002
https://doi.org/10.1590/S0104-7760201200... ).

As shown by the first count data, the germination rate of M. urundeuva diaspores also varied with location and year of collection (Table 3). The diaspores collected from the Boa Vista area in the first and second years exhibited the highest first count values, although the seeds did not significantly differ in this respect from the seeds collected in the São João do Cariri area.

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Table 3
First count of germination, emergence and speed of emergence index of Myracrodruon urundeuva plantlets from diaspores collected during three consecutive years in the municipalities of Boa Vista and São João do Cariri, state of Paraíba, Brazil.

The first count test results are an indication of the speed of germination. Variation in the speed of germination is caused by differences in the physiological potential of the diaspores, since, according to Nunes et al. (2008Nunes, Y. R. F., Fagundes, M., Almeida, H. S., & Veloso, M. D. M. (2008). Aspectos ecológicos da aroeira (Myracrodruon urundeuva Allemão - Anacardiaceae): fenologia e germinação de sementes. Revista Árvore, 32(2), 248-252. doi: 10.1590/S0100-67622008000200006.
https://doi.org/10.1590/S0100-6762200800... ), M. urundeuva diaspores are not dormant and the speed of germination depends on seed coat permeability, air temperature, and seed chemical composition.

The low germination rate of the diaspores collected in the third year is probably due to the rain precipitation taking place during diaspore dispersion (Figure 1); this aspect was highlighted by Griz & Machado (2001Griz, L. M. S., & Machado, I. P. S. (2001). Fruiting phenology and seed dispersal syndromes in caatinga, a tropical dry forest in the northeast of Brazil. Journal of Tropical Ecology, 17(2), 303-321. doi: 10.1017/S0266467401001201
https://doi.org/10.1017/S026646740100120... ) in their year-long study of the mode of seed dispersion during the rainy and dry seasons, as well as the growth habits and fruit morphology, of 42 species inhabiting the semiarid region of Northeast Brazil, including M. urundeuva.

The seedling emergence and speed of emergence index results showed that the diaspores collected in São João do Cariri and area 1 of the Boa Vista farm (Table 3) were of high quality, although the results were not significantly different from those of seeds collected at area 2 of Boa Vista and at São João do Cariri. This is an indication that the diaspores used in this work were of good quality, independently of the year and place of production. This fact may be justified by the occurrence of different rain precipitation conditions that influenced the diaspores maturation process and was verified in the germination and seedling emergence tests (Table 3). In addition, it is necessary to consider the particular environmental factors taking place at the location of each mother tree, such as the amount of available water, shallow soil conditions and the elevation of rocky formations, as well as the genetic variation among mother trees.

The results permit us to visualize the variations among the evaluated individuals. According to Diniz et al. (2015Diniz, R. Q., Diniz, B. L. M. T., Azeredo, G. A., Souza, V. C., & Pereira, E. M. (2015). Potencial germinativo de sementes de aroeira Myracrodruon urundeuva Fr. coletadas de população no cariri paraibano. Revista Verde, 10(1), 154-159. doi: 10.18378/rvads.v10i1.3442
https://doi.org/10.18378/rvads.v10i1.344... ), it is possible to verify, within the same species, individual variations caused by environmental conditions prevailing during seed development and by genetic variability. These variations may directly affect seed germination and seedling development.

As a general rule, the final number of germinated diaspores and/or of emerged seedlings is considered important information for seedling producers. This information is usually gathered in vigor tests that also include the commonly used speed index, since germination and emergence rates are considered a more accurate measurement of the real physiological condition of seeds (Dorneles et al., 2005Dorneles, M. C., Ranal, M. A., & Santana, D. G. (2005). Germinação de diásporos recém-colhidos de Myracrodruon urundeuva Allemão (Anacardiaceae) ocorrente no cerrado do Brasil Central. Revista Brasileira de Botânica, 28(2), 399-408.).

According to Virgens et al. (2012Virgens, I. O., Castro, R. D., Fernandez, L. G., & Pelacani, C. R. (2012). Comportamento fisiológico de sementes de Myracrodruon urundeuva Fr. All. (Anarcadiaceae) submetidas a fatores abióticos. Ciência Florestal, 22(4), 681-692. doi: 10.5902/198050987550
https://doi.org/10.5902/198050987550... ), the speed of emergence index (SEI) of a given seed lot is an important tool to define the speed with which a new forest community could be occupied. Index values close to those herein reported were reported by Guedes et al. (2012Guedes, R. S., Alves, E. U., Bruno, R. L. A., Gonçaslves, E. P., Costa, E. G., & Medeiros, M. S. (2012). Armazenamento de sementes de Myracrodruon urundeuva Fr. All. em diferentes embalagens e ambientes. Revista Brasileira de Plantas Medicinais, 14(1), 68-75. doi: 10.1590/S1516-05722012000100010
https://doi.org/10.1590/S1516-0572201200... ), with values between 1 and 3 in M. urundeuva diaspores sown under the same substratum conditions before being moved to storage.

The variables related to diaspore viability and vigor were verified to vary among the M. urundeuva mother trees. Consequently, it was possible to carry out principal component analysis with the scores, and an eigenvector circle may be used to differentiate between individuals and to identify the preponderant variables in this study. For the physiological quality of the diaspores, two components were necessary to explain satisfactorily the variability among mother trees. Cumulative variances of 86.7% and 92.6% were observed for principal components 1 and 2 (Table 4).

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Table 4
Eigenvectors of two principal components of variables related to the physiological quality of Myracrodruon urundeuva diaspores collected in the municipalities of São João do Cariri and Boa Vista, state of Paraíba, Brazil.

All the analyzed variables were important to the discrimination of groups in the principal component analysis. However, the germination and emergence tests ordered the mother trees differently in regard to the physiological quality of the diaspores. This differentiation was confirmed by the analysis (Figure 2), in which the germination and emergence tests are perfectly separated in axis 2 (Component 2), which explains 14.45% of the variance. However, the analysis revealed that component 1 explained 78.17% of the variance; this high value is an indication that more than one vigor test should be conducted in addition to the germination test.

Therefore, the continuous spatial distribution of the data was evidenced, and four clusters were defined according to the observed similarities in the physiological quality of diaspores (Figure 3). Among these, groups 1 and 2 were especially notable. Group 1 consisted of 15 mother trees in the first year (trees 1, 2, 3, 5, 7, 8, 12, 13, 15, 20, 22, 24, 25, 26, and 27), five in the second year (trees 7, 8, 16, 20, and 26) and one (tree 4) in the third year. Group 2 consisted of four mother trees in the first year only (trees 4, 9, 11, and 18).

Figure 2
Eigenvector circle resulting from the principal components of the variables germination (G), first count of germination (FCG), speed of germination index (SGI), emergence (E), first count of emergence (FCE) and speed of emergence index (SEI) of Myracrodruon urundeuva diaspores collected during three consecutive years in the municipalities of São João do Cariri and Boa Vista in the state of Paraíba, Brazil.

Figure 3
Scatterplot of Myracrodruon urundeuva diaspore samples, with four clusters based on two principal component scores (1 and 2) related to the physiological quality of diaspores. (Numbers indicate the mother trees; letters A, B, and C indicate years 1, 2, and 3 of collection, respectively.)

Groups 1 and 2 were clearly different from groups 3 and 4 owing to the predominant localization in the positive axis of component 1, where the highest-quality diaspores are found. It is necessary to emphasize that in the first year, the mother trees of group 2 produced diaspores of high physiological potential, scoring values above 4 for component 1.

As to group 1, trees 20 and 26, in the second year, reached high score values as expressed by component 2, representing the high potential of the diaspores of this group.

The two components explaining the variability between mother trees of this study differentiate important factors in seed quality evaluation: the analyses under controlled environmental conditions (germination test and related variables) and those simulating field conditions (seedling emergence test), in addition to the need for more than a vigor test in conjunction with the germination test (Carvalho & Nagakawa, 2012Carvalho, N. M., & Nakagawa, J. (2012). Sementes: ciência, tecnologia e produção (5a ed.). Jaboticabal, SP: FUNEP.; Marcos Filho, 2015Marcos Filho, J. (2015). Seed vigor testing: an overview of the past, present and future perspective. Scientia Agricola, 72(4), 363-374. doi: 10.1590/0103-9016-2015-0007
https://doi.org/10.1590/0103-9016-2015-0... ).

It was observed that some diaspores in groups 3 and 4 (the groups where the lowest-quality diaspores are found) were from the same mother trees as seeds in groups 1 and 2 (Figure 3) but were collected in different years. These results show that the collection period influenced the formation of clusters and that the origin (the area where the mother trees are located) had little influence on the data clustering, since mother trees from all three areas were found in the same groups.

According to the literature, seasonality is a preponderant factor in the physiological quality of seeds (Griz & Machado, 2001Griz, L. M. S., & Machado, I. P. S. (2001). Fruiting phenology and seed dispersal syndromes in caatinga, a tropical dry forest in the northeast of Brazil. Journal of Tropical Ecology, 17(2), 303-321. doi: 10.1017/S0266467401001201
https://doi.org/10.1017/S026646740100120... ; Carvalho & Nakagawa, 2012Carvalho, N. M., & Nakagawa, J. (2012). Sementes: ciência, tecnologia e produção (5a ed.). Jaboticabal, SP: FUNEP.; Marcos Filho, 2015Marcos Filho, J. (2015). Seed vigor testing: an overview of the past, present and future perspective. Scientia Agricola, 72(4), 363-374. doi: 10.1590/0103-9016-2015-0007
https://doi.org/10.1590/0103-9016-2015-0... , Nascimento et al., 2017Nascimento, I. S., Santos, J. M. F. F., Silva, R. C. S., Santos, D. M., Silva, K. A., & Araújo, E. L. (2017) Variação sazonal e interanual na dinâmica populacional de Croton blanchetianus em uma floresta tropical seca. Pesquisa Florestal Brasileira, 37(92), 437-446. doi: 10.4336/2017.pfb.37.92.1191
https://doi.org/10.4336/2017.pfb.37.92.1... ). Nunes et al. (2008Nunes, Y. R. F., Fagundes, M., Almeida, H. S., & Veloso, M. D. M. (2008). Aspectos ecológicos da aroeira (Myracrodruon urundeuva Allemão - Anacardiaceae): fenologia e germinação de sementes. Revista Árvore, 32(2), 248-252. doi: 10.1590/S0100-67622008000200006.
https://doi.org/10.1590/S0100-6762200800... ) say that the optimal moment for M. urundeuva seed harvest should be rigorously determined, since factors such as rainfall and temperature are determinants in the seed maturation process and, consequently, in the germination and seedling emergence process.

Year of collection had a substantial effect on diaspore physiological quality, as shown by the results of the three consecutive years of collection. Tree 4, for instance, may be considered of good quality since it is present in groups 1 and 2 in the third and second years of collection, even though factors occurring in the third year led to reductions in diaspore quality as evidenced by mother trees 7, 8, and 20, which were in group 1 in the first and second years of collection, but moved to group 4 in the third year (Figure 3).

Therefore, for the collection of M. urundeuva seeds, we recommend the mother trees forming group 1 because seeds from that group had the highest mean germination and emergence, at 74% and 67%, respectively, and the diaspores of some mother trees maintained high quality for more than one year of collection. Group 2 may also be considered adequate for the collection of seeds due to the high physiological potential (germination and emergence) shown by those seeds in the first year of collection (84% and 85%, respectively), although this group was represented only by four mother trees.

Conclusion

The physiological quality of Myracrodruon urundeuva diaspores is dependent on environmental factors.

The physiological quality of M. urundeuva diaspores varies among mother trees, years and collection sites.

Trees in groups 1 and 2 are the most promising, since they contain representatives of the three areas and produce high physiological potential diaspores.

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Publication Dates

Publication in this collection
03 Sept 2018
Date of issue
2018

History

Received
12 Sept 2017
Accepted
29 Dec 2017

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

[1] Andrade, A. P., Souza, E. S., Silva, I. D., Silva, I. F., & Lima, J. R. S. (2006). Produção animal no bioma caatinga: paradigmas dos pulsos-reserva. Revista Brasileira de Zootecnia, 35(1), 138-155. Suplemento especial.

[2] Berger, A. P. A., Ranal, M., Lopes, S. W., Dorneles, M. C., Santana, D. G., & Pereira, R. S. (2007). Emergência de plântulas de Myracrodruon urundeuva Allemão (Anacardiaceae) do Vale do Rio Araguari, MG. Revista Brasileira Biosciência, 5(2), 1029-1031.

[3] Borchert, R., & Rivera, G. (2001). Phothoperiodic control of seasonal development and dormancy in tropical stem suculent tress. Tree Physiology, 21(4), 213-221. doi: 10.1093/treephys/21.4.213
» https://doi.org/10.1093/treephys/21.4.213

[4] Brasil. Ministério da Agricultura e da Reforma Agrária. (2009). Regras para análise de sementes Brasília, DF: SNDA/DNDV/CLAV.

[5] Canuto, D. S. O., Silva, A. M., Moraes, M. L. T., & Resende, M. D. L. (2016). Estabilidade e adaptabilidade em testes de progênies de Myracrodruon urundeuva sob quatro sistemas de plantio. Cerne, 22(2), 171-180. doi: 10.1590/01047760201622021978
» https://doi.org/10.1590/01047760201622021978

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Source of variation	Degrees of freedom	F values
Source of variation	Degrees of freedom	%G	%FCG	SGI	%E	%FCE	SEI
Area	2	25.23**	26.62**	19.80**	100.81**	61.49**	93.57**
Year	2	1.60^ns	2.96**	2.46 ^ns	6.87**	3.97*	10.11**
Area x Year	4	0.89^ns	9.20**	1.08 ^ns	4.60**	1.25 ^ns	6.63**

Area	First count of germination (%) (mean ± standard deviation)
Area	1^st year	2^nd year	3^rd year
São João do Cariri	49 ± 23 aA	14 ± 7 bB	17 ± 18 aB
Boa Vista - Area 1	46 ± 24 aA	38 ± 14 aA	19 ± 12 aB
Boa Vista - Area 2	33± 21 bB	48 ± 26 aA	7 ± 6 aC
Emergence (mean ± standard deviation)
São João do Cariri	63 ± 14 abA	22 ± 12 aC	44 ± 14 aB
Boa Vista - Area 1	65 ± 17 aA	28 ± 15 aB	20 ± 11 bB
Boa Vista - Area 2	56 ± 22 bA	17 ± 13 aB	16 ± 12 bB
Speed of emergence index (mean ± standard deviation)
São João do Cariri	3,42 ± 1,20 abA	1,14 ± 0,70 bC	1,94 ± 0,69 aB
Boa Vista - Area 1	3,49 ± 1,03 aA	1,82 ± 1,01 aB	0,92 ± 0,45 bC
Boa Vista - Area 2	2,81 ± 1,21 bA	0,97 ± 0,82 bB	0,64 ± 0,48 bB

Variables	Component 1	Component 2
Germination	0.394	0.342
First count of germination	0.388	0.460
Speed of germination index	0.417	0.442
Emergence	0.412	-0.410
First count of emergence	0.409	-0.399
Speed of emergence index	0.428	-0.385
Eigenvectors	4.690	0.782
Accumulated variances (%)	86.7	92,6

Brasil

Brasil

Chronological analysis of the physiological quality of diaspores of Myracrodruon urundeuva Fr. All. in semiarid regions

Análise temporal da qualidade fisiológica de diásporos de Myracrodruon urundeuva Fr. All. em regiões semiáridas

ABSTRACT.

RESUMO.

Introduction

Material and method

Result and discussion

Conclusion

References

Publication Dates

History

Area	Mother tree	Year
Area	Mother tree	1	2	3
São João do Cariri	1	X		X
	2	X	X	X
	3	X	X
	4	X	X	X
	5	X	X	X
	6	X		X
Boa Vista (Area 1)	7	X	X	X
	8	X	X	X
	9	X	X	X
	10	X	X
	11	X	X	X
	12	X	X	X
	13	X
	14	X
Boa Vista (Area 2)	15	X
	16	X	X	X
	17	X	X	X
	18	X		X
	19	X
	20	X	X	X
	21	X
	22	X
	23	X	X	X
	24	X
	25	X
	26	X	X
	27	X		X
	28	X