Research Article
Lipid Content Variation in Plantago media Leaves in Response to Light Conditions
Olga Rozentsvet1*, Tamara Golovko2, Elena Bogdanova1, Galina Tabalenkova2, Ekaterina Kokovkina2, Igor Dalke2 and Viktor Nesterov1
1Institute of Ecology of the Volga Basin Russian Academy of Science, Togliatti, Russia
2Institute of Biology of the Komi Republic of the Scientific Center of Russian Academy of Science Ural Branch, Syktyvkar, Russia
- *Corresponding Author:
- Olga Rozentsvet
Institute of Ecology of the
Volga Basin Russian Academy of Science
Komzin’s Str. 10, Tolyatti, 445003, Russia
Tel: +8482-48-99-77
Fax: +7 8482 48 96 09
E-mail: olgarozen55@mail.ru
Received Date: June 16, 2015 Accepted Date: July 13, 2015 Published Date: July 15, 2015
Citation: Rozentsvet O, Golovko T, Bogdanova E, Tabalenkova G, Kokovkina E, et al. (2015) Lipid Content Variation in Plantago media Leaves in Response to Light Conditions, Cuba. J Ecosys Ecograph 5:163. doi:10.4172/2157-7625.1000163
Copyright: © 2015 Rozentsvet O, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Abstract
The aim of the present work was to study the variation of lipid and fatty acids (FA) composition as well as morphometric characteristics of Plantago media leaves from the different light conditions in northeastern Russia. The content of lipids in the leaves was measured for several years during the blooming period, and the level of lipid peroxidation was estimated. For lipid analysis, the mid leaf part from 12-15 typical plants was cut in small parts and three samples of 1-2 g were chosen from the total biomass. Lipids were extracted three times using three times chloroform/methanol. The quantification of phospholipids (ÃÂ L) was performed by the content of inorganic phosphorus. Glycolipids (GL) and non-polar lipids (NL) were quantified using a densitometer. The leaves of the plants grown under lower light had lower leaf mass/area ratio (LMA) but larger areas of lamina. They accumulated lower levels of lipid peroxide products. Daily content of malondialdehyde changed more significantly during periods with clear and warm weather. It was found that as the duration of sunshine increased, the content of total lipids (TL) increased (r=0.78), but an increase in temperature resulted in a decrease of their content (r=-0.70), especially for plants in high-sunshine habitats. Concentration of GL in leaves of shaded plants increased with increasing precipitation but decreased with increasing temperature and the duration of sunshine. The same effect is exerted by rainfall on PL content. Amount of saturation FA (SFA) increased with increasing temperature and the duration of sunshine. Precipitation contributed to the accumulation of unsaturation FA (USFA). Thus, the content of lipids in the leaves depended on weather and microclimate conditions.