Lettuce (Lactuca sativa L.) is an annual, leafy crop with a short growth in cool season. The aim of this study
was to determine the effect of microbiological fertilisers, genotype and growing seasons on the fresh weight
(FW), concentration of nitrate and vitamin C in the rosette (head) of red lettuce. The greenhouse experiment
included three cultivars (‘Murai’, ‘Gaugin’ and ‘Carmesi’) of red lettuce grown in fertile soil during successive
growing seasons: autumn, winter and spring. Three types of microbiological fertilisers: (1) mixture of fungi and
bacteria and their products, referred to as effective microorganisms (EM), (2) containing Trichoderma spp. and
(3) mixture of EM and Trichoderma spp., were applied for red lettuce. Microbiological fertilisers were applied in
the soil and via foliar spray before planting. Significantly higher FW of the rosette was in spring and winter than
in autumn. The ‘Murai’ showed significantly the highest (264.7 g) FW of the rosette in ...spring. Trichoderma spp.
fertiliser and the combination of effective microorganisms and Trichoderma spp. significantly increased FW of the
rosette for the ‘Murai’ and ‘Gaugin’ grown in autumn. The highest nitrate concentration was observed for winter
grown ‘Carmesi’ (805.2 mg kg-1) treated by effective microorganisms, and the lowest for spring grown ‘Gaugin’
(62.2 mg kg-1) without microbial fertilisers. Generally, the application of microbiological fertilisers contributed
to a significantly higher concentration of nitrate in the rosette of red lettuce. The concentration of nitrate did not
exceed maximum level for protected lettuce (EC No 563/2002). In spring, significantly the highest concentration
of vitamin C (12.2 mg 100 g-1 FW) was found in the ‘Carmesi’ treated with Trichoderma spp. Microbiological
fertilisers contributed to significantly higher concentration of vitamin C in the ‘Gaugin’ and ‘Carmesi’ grown in
winter and spring.
This study indicated that genotype, treatment and growth season affected all the tested parameters highlighting
the importance of application of Trichoderma spp. or the combination of Trichoderma spp. with effective
microorganisms.
Keywords:
ascorbate / cultivar / effective microorganisms / growing season / red lettuce / rosette weight
Source:
Zemdirbyste-Agriculture, 2020, 107, 4, 345-352
Publisher:
Lithuanian Research Centre Agriculture & Forestry, Kedainiu R
TY - JOUR
AU - Stojanović, Milica
AU - Radović, Ivana
AU - Zuza Prastalo, Milena
AU - Jovanovic, Zorica
AU - Moravcevic, Djordje
AU - Cvijanović, Gorica
AU - Savic, Sladjana
PY - 2020
UR - http://rimsi.imsi.bg.ac.rs/handle/123456789/1818
AB - Lettuce (Lactuca sativa L.) is an annual, leafy crop with a short growth in cool season. The aim of this study
was to determine the effect of microbiological fertilisers, genotype and growing seasons on the fresh weight
(FW), concentration of nitrate and vitamin C in the rosette (head) of red lettuce. The greenhouse experiment
included three cultivars (‘Murai’, ‘Gaugin’ and ‘Carmesi’) of red lettuce grown in fertile soil during successive
growing seasons: autumn, winter and spring. Three types of microbiological fertilisers: (1) mixture of fungi and
bacteria and their products, referred to as effective microorganisms (EM), (2) containing Trichoderma spp. and
(3) mixture of EM and Trichoderma spp., were applied for red lettuce. Microbiological fertilisers were applied in
the soil and via foliar spray before planting. Significantly higher FW of the rosette was in spring and winter than
in autumn. The ‘Murai’ showed significantly the highest (264.7 g) FW of the rosette in spring. Trichoderma spp.
fertiliser and the combination of effective microorganisms and Trichoderma spp. significantly increased FW of the
rosette for the ‘Murai’ and ‘Gaugin’ grown in autumn. The highest nitrate concentration was observed for winter
grown ‘Carmesi’ (805.2 mg kg-1) treated by effective microorganisms, and the lowest for spring grown ‘Gaugin’
(62.2 mg kg-1) without microbial fertilisers. Generally, the application of microbiological fertilisers contributed
to a significantly higher concentration of nitrate in the rosette of red lettuce. The concentration of nitrate did not
exceed maximum level for protected lettuce (EC No 563/2002). In spring, significantly the highest concentration
of vitamin C (12.2 mg 100 g-1 FW) was found in the ‘Carmesi’ treated with Trichoderma spp. Microbiological
fertilisers contributed to significantly higher concentration of vitamin C in the ‘Gaugin’ and ‘Carmesi’ grown in
winter and spring.
This study indicated that genotype, treatment and growth season affected all the tested parameters highlighting
the importance of application of Trichoderma spp. or the combination of Trichoderma spp. with effective
microorganisms.
PB - Lithuanian Research Centre Agriculture & Forestry, Kedainiu R
T2 - Zemdirbyste-Agriculture
T1 - The productivity and quality of Lactuca sativa as influenced by microbiological fertilisers and seasonal conditions
EP - 352
IS - 4
SP - 345
VL - 107
DO - 10.13080/z-a.2020.107.044
ER -
@article{
author = "Stojanović, Milica and Radović, Ivana and Zuza Prastalo, Milena and Jovanovic, Zorica and Moravcevic, Djordje and Cvijanović, Gorica and Savic, Sladjana",
year = "2020",
abstract = "Lettuce (Lactuca sativa L.) is an annual, leafy crop with a short growth in cool season. The aim of this study
was to determine the effect of microbiological fertilisers, genotype and growing seasons on the fresh weight
(FW), concentration of nitrate and vitamin C in the rosette (head) of red lettuce. The greenhouse experiment
included three cultivars (‘Murai’, ‘Gaugin’ and ‘Carmesi’) of red lettuce grown in fertile soil during successive
growing seasons: autumn, winter and spring. Three types of microbiological fertilisers: (1) mixture of fungi and
bacteria and their products, referred to as effective microorganisms (EM), (2) containing Trichoderma spp. and
(3) mixture of EM and Trichoderma spp., were applied for red lettuce. Microbiological fertilisers were applied in
the soil and via foliar spray before planting. Significantly higher FW of the rosette was in spring and winter than
in autumn. The ‘Murai’ showed significantly the highest (264.7 g) FW of the rosette in spring. Trichoderma spp.
fertiliser and the combination of effective microorganisms and Trichoderma spp. significantly increased FW of the
rosette for the ‘Murai’ and ‘Gaugin’ grown in autumn. The highest nitrate concentration was observed for winter
grown ‘Carmesi’ (805.2 mg kg-1) treated by effective microorganisms, and the lowest for spring grown ‘Gaugin’
(62.2 mg kg-1) without microbial fertilisers. Generally, the application of microbiological fertilisers contributed
to a significantly higher concentration of nitrate in the rosette of red lettuce. The concentration of nitrate did not
exceed maximum level for protected lettuce (EC No 563/2002). In spring, significantly the highest concentration
of vitamin C (12.2 mg 100 g-1 FW) was found in the ‘Carmesi’ treated with Trichoderma spp. Microbiological
fertilisers contributed to significantly higher concentration of vitamin C in the ‘Gaugin’ and ‘Carmesi’ grown in
winter and spring.
This study indicated that genotype, treatment and growth season affected all the tested parameters highlighting
the importance of application of Trichoderma spp. or the combination of Trichoderma spp. with effective
microorganisms.",
publisher = "Lithuanian Research Centre Agriculture & Forestry, Kedainiu R",
journal = "Zemdirbyste-Agriculture",
title = "The productivity and quality of Lactuca sativa as influenced by microbiological fertilisers and seasonal conditions",
pages = "352-345",
number = "4",
volume = "107",
doi = "10.13080/z-a.2020.107.044"
}
Stojanović, M., Radović, I., Zuza Prastalo, M., Jovanovic, Z., Moravcevic, D., Cvijanović, G.,& Savic, S.. (2020). The productivity and quality of Lactuca sativa as influenced by microbiological fertilisers and seasonal conditions. in Zemdirbyste-Agriculture
Lithuanian Research Centre Agriculture & Forestry, Kedainiu R., 107(4), 345-352.
https://doi.org/10.13080/z-a.2020.107.044
Stojanović M, Radović I, Zuza Prastalo M, Jovanovic Z, Moravcevic D, Cvijanović G, Savic S. The productivity and quality of Lactuca sativa as influenced by microbiological fertilisers and seasonal conditions. in Zemdirbyste-Agriculture. 2020;107(4):345-352.
doi:10.13080/z-a.2020.107.044 .
Stojanović, Milica, Radović, Ivana, Zuza Prastalo, Milena, Jovanovic, Zorica, Moravcevic, Djordje, Cvijanović, Gorica, Savic, Sladjana, "The productivity and quality of Lactuca sativa as influenced by microbiological fertilisers and seasonal conditions" in Zemdirbyste-Agriculture, 107, no. 4 (2020):345-352,
https://doi.org/10.13080/z-a.2020.107.044 . .
