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881 
Original Article 

Biosci. J., Uberlândia, v. 33, n. 4, p. 881-885, July/Aug. 2017 

EFFECTS OF LIGHT, TEMPERATURE AND MESOCARP ON SEED 
GERMINATION OF Euterpe edulis (JUÇARA-PALM) 

 
EFEITO DA LUZ, TEMPERATURA E MESOCARPO NA GERMINAÇÃO DE 

SEMENTES DE PALMITO JUÇARA (Euterpe edulis) 
 

Francismar Francisco Alves AGUIAR1; Shoey KANASHIRO1; Patricia GIAMPAOLI1;  
Valeria Aparecida MODOLO2; Janaína de AGUIAR3; Armando Reis TAVARES1 

1. Instituto de Botânica, São Paulo, SP, Brasil; 2. Instituto Agronômico de Campinas, Campinas, SP, Brasil; 3. Universidade Federal do 
Amazonas, Manaus, AM, Brasil. atavares2005@yahoo.com.br 

 
ABSTRACT: The study exposed in this paper aimed at evaluating the influence of light, temperature and 

presence or absence of mesocarp in seeds on the germination of Euterpe edulis Mart. (juçara-palm). The germination of 
seeds with and without mesocarp was assessed in the presence of light (12 h photoperiod) or in the darkness, and at 
temperatures of 25, 28 or 30C. A complete randomized 2x2x3 (mesocarp presence, light conditions and temperatures) 
factorial design was used. The seed germinability and the Germination Speed Index (GSI) were evaluated. Seeds of E. 
edulis were indifferent either to the presence of light or to temperatures of 25, 28 and 30C. The germinability of the seeds 
with mesocarp was lower (6 to 10%) than those without mesocarp (47 to 75%). 

 
KEYWORDS: Heart of palm. Arecaceae. Forest Seeds. Atlantic Forest. Arecaceae. 

 
INTRODUCTION 

 
Euterpe edulis Mart., Arecaceae (juçara-

palm) is traditionally used in heart of palm 
extraction. This kind of palm established the heart 
of  palm market in Brazil about 20 years ago, and 
has dominated it since then, developing the concept 
of the product in the consumer's mind (what the real 
taste of heart of palm is), which includes tying its 
consumption to canned food (industrialized heart of 
palm). E. edulis may be found from the states of 
Bahia to Rio Grande do Sul, in Brazil, and due to its 
predatory extraction, it is in the official list of 
endangered species and under extinction threat in 
the state of São Paulo (MAMEDE et al., 2007).  

The heart of palm cultivation for food 
production is, undoubtedly, one of the few 
commercially cultivated plants that can be grown in 
native forests with minimal investment, since its 
cultivation may be achieved through sustainable 
management in areas of natural occurrence and 
regulated by specific legislation. The species is also 
considered a key one for the sustainable 
management of native formations in the Atlantic 
Forest (CARVALHO, 2003).  

The palm has received much attention in 
recent years due to the extremely high anti-oxidant 
capacity of its fruit pulp (mesocarp) and its role as a 
‘‘functional food” or food ingredient (KANGA, 
2010). The fruits are rich in vitamins, minerals, 
trace elements, soluble and insoluble fiber, 
phytosterols (betasitosterol, campesterol, and 
sigmasterol), and low-sugar content (SCHAUSS et 

al., 2009). The species is also used in civil 
construction, for cellulose production, animal 
feeding and compost, landscape architecture, human 
food and, due to its high potential for regeneration, 
is also recommended for recovering degraded areas 
(CARVALHO, 2003; MAMEDE et al., 2007). 

Guerra et al. (1984) pointed out the 
importance of E. edulis and the need for further 
specific studies concerning its conservation, seed 
vigor, efficiency of germination and nursery 
management, allowing an improvement in the 
current knowledge regarding native forest trees. 
Seed germination in natural conditions is slow, 
though the removal of the mesocarp from the fruit 
promotes not only a homogenous seed germination 
rate, but also the acceleration of the germination 
process (QUEIROZ, 2000).  

Bearing in mind the ecological and 
economical importance of such species, the 
objective of this study was to evaluate the 
germination response of its seeds to different 
temperature regimes and light conditions, as well as 
the efficiency of its propagation under such 
conditions. 
 
MATERIAL AND METHODS 

 
Ripened fruits of E. edulis, recognized by 

the black colour, were harvested from 10 specimens 
cultivated at the Botanical Garden of São Paulo. 
Fruits were divided in two lots, and one of them had 
the seeds depulped through friction against a steel 

Received: 
Accepted:  



882 
Effects of light, temperature and mesocarp…  AGUIAR, F. F. A. et al. 

Biosci. J., Uberlândia, v. 33, n. 4, p. 881-885, July/Aug. 2017 

mesh sieve, under running water (seeds without 
mesocarp).  

All seeds were soaked in a benomyl 80 at 
0.1% solution for 8 h, and subsequently air-dried for 
48 h, intended for pathogenic fungi preventive 
control. Seeds water contents were 40.85% for seeds 
with mesocarp and 36.64% for seeds without 
mesocarp, and were determined gravimetrically 
(Brasil, 2009), using two replications of 20 seeds at 
105±3 oC for 24 hours, with results expressed in 
percentage (wet basis). Seeds were sowed in either 
transparent (light) or black (darkness)  

Gerbox plastic boxes (11.0 x 11.0 x 3.5 cm), 
containing vermiculite as substrate, fully moistened 
with distilled water. The boxes were kept in B.O.D. 
chambers at three different constant temperatures 
(25, 28 or 30 oC) and with two lighting treatments 
(12 h photoperiod - 25 µ mol m-2 s-1 photosynthetic 
active radiation (PAR) and total darkness). The 
assessment of seed germination was carried out in a 
dark chamber (green light was used to access the 
seeds). The count of germinated seeds was 
performed weekly (it started with the first seed 
germinated), and last for 63 days. The criteria used 
to evaluate seed germination was the formation of a 
normal plantlet, according to Borguetti and Ferreira 
(2004).  

Statistical analysis: based in a completely 
randomized in a 2 x 3 x 2 factorial design (seeds 
with or without mesocarp, temperature and light), 
totalling 12 treatments with four replications of 25 
seeds each one. Normality and homogeneity of data 
were analysed with the Shapiro-Wilk test, with no 
need for transformation. Data were subjected to 
variance analysis and averages were compared by 
Tukey’s test (p ≤ 0.05). 

RESULTS AND DISCUSSION 
 
The germinability of seeds with mesocarp, 

both under light and dark conditions and at different 
temperatures, were lower when compared to seeds 
without mesocarp (Table 1). The presence of 
mesocarp significantly reduced the seed 
germinability, when compared to seeds without 
mesocarp. The same results were obtained by Bovi 
and Cardoso (1976), who concluded that seeds of E. 
edulis, with or without mesocarp, submitted to 
scarification with H2SO4, showed the highest seed 
germinability. The removal of mesocarp seeds from 
green fruits of Dypsis lutescens (Palmae) greatly 
decreased seed germinability, suggesting that the 
presence of mesocarp may be important for 
maturation of an immature embryo (BROSCHAT; 
DONSELMAN, 1986). These results support the 
importance of animals eating the mesocarp (pulp) of 
fruits, as the germination rates and the seedling 
formation increase when the pulp passes through the 
digestive tract of animals (REIS; KAGEYAMA, 
2000). E. edulis is also important for the 
preservation of some birds species, which eat the 
fruits of this palm and disperse their seeds 
(COIMBRA-FILHO et al., 1998). However, the 
presence of mesocarp is prejudicial on seed storage, 
once it is oleaginous and rich in sugars, allowing 
microorganisms to develop and seed coat 
fermentation, causing embryo damage and, 
consequently, viability loss and germination rate 
reduction (MARTINS et al., 2004).  

 
 
 

 
Table 1. Means of Euterpe edulis seeds with and without mesocarp germinability, light or darkness and at three 

different temperatures. São Paulo, IBt, 2010. 
Treatments Germinability (%) 
Seeds with mesocarp   7.83 B 
Seeds without mesocarp 60.83 A 
Darkness 33.17 a 
Light 35.50 a 
25 oC 38.00 a 
28 oC 29.25 a 
30 oC 35.75 a 

* Means followed by the same letter within the columns are not significantly different by Tukey's test (p ≤ 0.05). 
 

Seeds without mesocarp showed higher 
physiological qualities than those with mesocarp as 
supported by the higher germinability. The speed of 
germination of palm seeds with oily mesocarp is 
lower and, consequently, was related to the final 
seed germinability (BOVI et al., 1987).  

Seeds with and without mesocarp of E. 
edulis germinated equally under light and darkness. 
This result is similar to those reported by Tavares et 
al. (2008), who did not report any effect of different 
levels of lighting (0, 20, 40, 60 or 80% of shading) 
on seed germination of E. edulis. Aguiar et al. 



883 
Effects of light, temperature and mesocarp…  AGUIAR, F. F. A. et al. 

Biosci. J., Uberlândia, v. 33, n. 4, p. 881-885, July/Aug. 2017 

(2005), studying the effect of temperature, light and 
compost on the seed germination of Rhapis excelsa 
(Palmae) concluded that total darkness benefitted 
the germinability, as well as the temperature of 25 
oC allowed not only the best germination, but also 
the fastest plantlets development. 

Seed germination of E. edulis was not 
statiscally different between seeds with or without 
mesocarp at the temperatures of 25, 28 or 30 oC. 
These results are similar to those reported by Bovi 
and Cardoso (1976) and Bovi et al. (1987), when 
they studied the effect of light and temperature on 
the germination of E. edulis. Andrade et al. (1999) 
observed higher germination rates, number of 
normal plants, and speed of plantlet germination for 
E. edulis at the temperatures of 20-30 and 25 oC 
when compared to higher temperatures (30, 35 and 
20-35 oC). Seeds of E. edulis (MARTINS et al., 
2004) and E. oleracea (ARAÚJO et al., 1994), for 
instance, showed characteristics of recalcitrant 
seeds, not adaptable to desiccation and/or storage at 
low temperature, leading to very low germinability 
and short longevity. E. edulis seeds lost their 
germination power after seed moisture decay to 
20%, condition that was created after 16 days drying 

at room temperature and relative humidity (REIS et 
al., 1999).  

The results showed that the mesocarp of E. 
edulis could be an evolutionary strategy, of 
exceptional ecological importance, as it makes 
feasible seeds germination at both summer and 
autumn temperatures in Brazil, seasons that coincide 
with fruit maturation and seed dispersion. 
Development of plantlets of E. edulis after 
germination may benefit from open spaces in the 
forest, due to their plasticity to increase their 
efficacy in uptaking nutrients and liquid carbon 
under higher luminescence (ILLENSEER; 
PAULILO, 2002).  

 
CONCLUSIONS 

 
There is no interaction between temperature 

and luminosity for E. edulis seeds germinability. 
The presence of the mesocarp on E. edulis 

seeds reduces seed germinability.  
Seeds without mesocarp showed the best 

results for seed germinability and velocity of 
germination aiming at E. edulis propagation by 
seeds. 

 
 
RESUMO: O objetivo deste estudo foi avaliar a influência da luz, temperatura na germinação do fruto com ou 

sem mesocarpo (despolpado) de Euterpe edulis Mart. (palmiteiro-juçara). Sementes com e sem mesocarpo foram 
submetidas a presença de luz (fotoperíodo de 12 h) ou escuro contínuo e às temperaturas de 25, 28 ou 30 

o
C. O 

delineamento experimental foi inteiramente casualizado, em arranjo fatorial 2x2x3 (presença de mesocarpo, regimes de luz 
e temperaturas). Avaliou-se a germinabilidade e o índice de velocidade de germinação das sementes (IVG). As sementes 
de E. edulis comportaram-se indiferentes à luz e às temperaturas de 25, 28 e 30 

o
C. A germinabilidade das sementes com 

mesocarpo foi menor (6 a 10%) que das sementes sem mesocarpo (47 a 75%). 
 
PALAVRAS CHAVE: Palmito. Sementes Florestais. Floresta Atlântica. Arecaceae. 

 
 

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