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《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:

2023年17

Page:

35-40

Research Field:

Publishing date:

Info

Title:

Evaluation of Appearance Quality Traits of Kernel-using Apricot Superior Strains Based on Principal Component Analysis

Author(s):

YANG Li; WANG Yuzhu; ZHANG Junhuan; JIANG Fengchao; ZHANG Meiling; SUN Haoyuan

(Institute of Forestry & Pomology,Beijing Academy of Agriculture & Forestry Sciences/Apricot Engineering Technology Research Center of State Forestry and Grassland Administration/Beijing Engineering Research Center for Deciduous Fruit Trees，Beijing 100093)

Keywords:

kernel-using apricot; stone; kernel; correlation analysis; principal component analysis

PACS:

S 662.2

DOI:

10.11937/bfyy.20225286

Abstract:

Six kernel-using apricot superior strains of distant hybridization were used as materials,11 appearance quality traits of stone and kernel of them were analyzed and evaluated,in order to provide reference for breeding new varieties.The results showed that the variation coefficient of 11 traits between 8.61%-35.96%,kernel shape index and single kernel weight was the minimum and maximum respectively.There were close correlation among 11 traits,the largest correlation coefficient with the single stone weight was the stone transverse diameter and the largest correlation coefficient with the single kernel weight was the single stone weight.The kernel percent were significantly correlated with the kernel lateral diameter,single kernel weight,stone shape index and kernel shape index,meanwhile negatively correlated with the stone vertical diameter,stone transverse diameter,single stone weight and kernel vertical diameter.By principal component analysis,11 appearance quality traits were transformed into 3 comprehensive indicators to represent the size,shape and yield of stone and kernel respectively.The cumulative contribution rate of 3 principal components was 85.66%.Then,according to the results of principal component analysis,11 appearance quality traits of stone and kernel of 6 superior stains were scored comprehensively,the rank was YX1>YX6>YX2>YX4>YX5>YX3.

References:

［1］ 李芳东,乌云塔娜,朱高浦.仁用杏实用栽培技术［M］.北京:中国林业出版社,2019.［2］ 刘宁,张加延,何跃,等.仁用杏新品系选育报告［J］.北方果树,1999(2):9-10.［3］ 高连祥.仁用杏新品种围选1号的选育［J］.中国果树,2008(4):6-8.［4］ 张玲,李炳仁,翟明普,等.仁用杏新品种‘薄壳1号’［J］.园艺学报,2008,35(12):1852.［5］ 王秀荣,吕丽霞,刘子刚,等.仁用杏新品种‘张仁一号’的选育［J］.中国果树,2021(4):69-70.［6］ 李芳东,杜红岩,杨绍彬,等.仁用杏早熟新品种中仁1号的选育［J］.中国果树,2009(5):10-14.［7］ 王永清,杜奎,杨志武,等.果树远缘杂交育种研究进展［J］.果树学报,2012,29(3):440-446.［8］ 张锡铜,吴青松,林文秋,等.18份菠萝种质果实外观性状比较分析［J］.果树学报,2022,39(1):78-85.［9］ 李冬,杨波,王雨,等.42株扁桃实生单株坚果表型性状多样性分析［J］.中国果树,2022(4):11-18,22.［10］罗会婷,贾晓东,翟敏,等.76株薄壳山核桃实生单株的果实品质差异及综合评价［J］.植物资源与环境学报,2017,26(1):47-54.［11］董胜君,常鸿韬,颜君,等.新疆野杏果实表型性状多样性研究［J］.沈阳农业大学学报,2020,51(5):513-521.［12］白史且,苟文龙,张新全,等.假俭草种群变异与生态特性的研究［J］.北京林业大学学报,2002,24(4):97-101.［13］董博文,李继东,郑先波,等.山茱萸种质资源表型性状多样性及相关性分析［J］.经济林研究,2014,32(2):163-166.［14］黄雪,图尔荪古丽·吾拉伊木,郭玲.新疆南部地区杏种核表型性状与苦杏仁苷含量分析［J］.经济林研究,2020,38(4):143-151,160［15］李玄,刘玉林,刘永红,等.杏核仁主要性状变异及概率分级［J］.北方园艺,2017(24):33-38.［16］王治军,梁臣,赵罕,等.仁用杏优良单株果实性状调查与分析［J］.经济林研究,2018,36(1):1-8.［17］尹明宇,刘慧敏,包文泉,等.内蒙古西伯利亚杏核仁表型变异及优株选择［J］.林业科学研究,2017,30(6):961-968.

Memo

Memo:

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Common functions

Last Update: 2023-10-24