Laaribi I, Mezghani Aiachi M, Gouta H, Giordano C, Salvatici M C, Labidi F et al . Pollen Ultrastructural Image Analysis among Ancient Native Olive Genotypes in the Central Eastern Tunisia. JAST 2017; 19 (2) :401-413
URL:
http://jast.modares.ac.ir/article-23-3206-en.html
1- High Agronomic Institute, IRESA-University of Sousse, 4042 Chott-Mariem, Tunisia.
2- Olive Tree Institute, B.P. 40, 4061 Sousse, Tunisia.
3- Center of Electron Microscopy “Laura Bonzi”, ICCOM, National Research Council (CNR), Firenze, Italy.
4- High Agronomic Institute, IRESA-University of Sousse, 4042 Chott-Mariem, Tunisia.|Regional Research Center for Horticulture and Organic Agriculture (CRRHAB), B. P. 57, 4042 Chott Mariem, Sousse, Tunisia.
Abstract: (5616 Views)
The olive tree (Olea europaea L.) is considered as one of the oldest and the most important fruit crops of the Mediterranean basin, which is characterized by the existence of a considerable number of different olive cultivars. Therefore, the olive cultivar identification is crucial to safeguard the genetic patrimony of this species. Different morphological and molecular markers were used to discriminate among cultivars. The aim of the present work was to describe different pollen morphological and ultrastructural parameters (shape, size and exine pattern) as an additional tool for the identification of olive cultivars. Observations were carried on seventy centennial olive accessions grown in the Central Eastern part of Tunisia using Scanning Electron Microscopy (SEM) and Image analysis (ImageJ). Pollen were three-zonocolpate and elliptical-prolate or subprolate. Pollen morphological qualitative traits revealed specific differences among the studied genotypes including variation in whole grain shape and also exine pattern ornamentation as meshes profile and regularity and muri thickness. The quantitatively measured traits were significantly different among pollen from diverse genotypes. Polar and equatorial diameters varied from 21.80 to 29.88 µm and from 14.47 to 21.14 µm, respectively, while the pollen area ranged between 274.58 and 466.35 µm2. Frequency distributions of most measured pollen parameters depicted a normal distribution. The three principal components of the Principal Component Analysis (PCA) accounted for more than 97% of the total variation. The first Principal Component (PC1) was correlated to pollen size. The second (PC2) and the third (PC3) were correlated to exine texture and to pollen shape, respectively. Both morphometric features and exine pattern observations were potentially relevant tools to discriminate among the studied genotypes. Further combination between pollen ultrastructural analysis, morphological and molecular markers is fully desirable, in subsequent work, to improve both reliability and discriminative ability for cultivars classification.
Article Type:
Research Paper |
Subject:
Horticultural Science Received: 2016/03/5 | Accepted: 2016/11/24 | Published: 2017/03/1