Seed morphology, oil content and fatty acid composition variability assessment in yellow horn (Xanthoceras sorbifolium Bunge) germplasm for optimum biodiesel production

Published Date
Industrial Crops and Products
March 2017, Vol.97:425–430, doi:10.1016/j.indcrop.2016.12.054

• Author 

• Haiyan Yu ¹
• Siqi Fan ¹
• Quanxin Bi
• Shaoxiong Wang
• Xiaoyu Hu
• Mengyuan Chen
• Libing Wang ^,

• Key Laboratory of Tree Breeding and Cultivation, State Forestry Administration, Research Institute of Forestry, Chinese Academy Forestry, Beijing 100091, China

Received 18 October 2016. Revised 22 December 2016. Accepted 28 December 2016. Available online 5 January 2017. 

Highlights

• •
  Selecting appropriate yellow horn germplasm to produce high-quality biodiesel.
• •
  The seed morphologies of all yellow horn accessions varied significantly (P < 0.01).
• •
  Oil contents ranged from 49.77% to 68.30% in the 15 yellow horn accessions.
• •
  Fatty acid composition varied among different yellow horn germplasm accessions.
• •
  Fuel properties of two yellow horn accessions met the biodiesel standards completely.

Abstract

Yellow horn (Xanthoceras sorbifolium Bunge) seed oil methyl esters have emerged as the potential candidate for producing biodiesel. The present study was conducted on 15 yellow horn germplasm accessions to assess the variability in its seed morphological characteristic, oil content and fatty acid composition. Variations of seed dry biomass, seed coat weight, kernel dry biomass, seed length, seed breadth and seed thickness were significant (P < 0.01). These yellow horn accessions were mainly divided into two groups according to kernel percentage. One group mainly included XS-233 and XS-281 with heavy kernels, while the other was the rest of the yellow horn accessions with heavy seed coats. Wide variability in oil content (49.77%–68.30%) was observed among the 15 accessions. Oil content showed a negative correlation with seed coat weight (r = −0.519*). The palmitic acid (C16:0), oleic acid (C18:1), linoleic acid (C18:2), eicosenoic acid (C20:1) and erucic acid (C22:1) were the predominant fatty acids in the 15 yellow horn accessions. Meanwhile, a small amount of docosahexaenoic acid (C22:6) (0.33%) was detected in XS-272 accession. Iodine value, cetane number, density and kinematic viscosity of yellow horn methyl esters changed from 119.1 to 125.6, 46.0–47.6, 881.3–882.3 and 4.50–4.66, respectively. Accessions XS-202 and XS-253 were found most suitable for breeding as biodiesel genotypes. And accessions XS-203, XS-213, XS-222, XS-232, XS-271 and XS-281 may be preserved as potential biodiesel types. Such assessment can be utilized for yellow horn plantations established with promising genotypes.

Keywords

Yellow horn

Seed morphological characteristic

Germplasm accession

Oil content

Fatty acid composition

Biodiesel properties

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• ⁎ 
  Corresponding author.
  
  

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