两大优势产区‘富士’苹果园土壤养分与果实品质关系的多变量分析

doi:10.13287/j.1001-9332.201701.030

应用生态学报 ›› 2017, Vol. 28 ›› Issue (1): 105-114.doi: 10.13287/j.1001-9332.201701.030

两大优势产区‘富士’苹果园土壤养分与果实品质关系的多变量分析

张强, 李民吉, 周贝贝, 李兴亮, 孙健, 张军科, 魏钦平^*

北京市农林科学院林业果树研究所/农业部华北地区园艺作物生物学与种质创制重点实验室, 北京 100093

收稿日期:2016-06-06 修回日期:2016-11-03 发布日期:2017-01-18
通讯作者: *E-mail:qpwei@sina.com
作者简介:张强,女,1980年生,副研究员.主要从事果树栽培生理生态研究.E-mail:zq800824@126.com
基金资助:
本文由国家现代苹果产业技术体系建设专项(CARS-28)、国家科技支撑计划项目(2014BAD16B02-3)和北京市农林科学院科技创新能力建设专项(KJCX20150403)资助

Multivariate analysis of relationship between soil nutrient factors and fruit quality characte-ristic of ‘Fuji’ apple in two dominant production regions of China

ZHANG Qiang, LI Min-ji, ZHOU Bei-bei, LI Xing-liang, SUN Jian, ZHANG Jun-ke, WEI Qin-ping^*

Institute of Forestry &Pomology, Beijing Academy of Agriculture and Forestry Sciences/Key Laboratory of Biology and Genetic Improvement of Horticultural Crops in North China, Ministry of Agriculture, Beijing 100093, China

Received:2016-06-06 Revised:2016-11-03 Published:2017-01-18
Contact: *E-mail:qpwei@sina.com
Supported by:
This work was supported by the National Modern Apple Industry Technical System Program (CARS-28), the National Science & Technology Support Program of China (2014BAD16B02-3), and the Science and Technology Innovation Ability Construction Projects of Beijing Academy of Agriculture and Forestry Sciences (KJCX20150403)

摘要/Abstract

摘要： 探讨环渤海湾和黄土高原两大苹果产区土壤养分对‘富士’苹果品质的影响,筛选不同产区影响果实品质特性的主要土壤养分因子,明确优质‘富士’苹果的土壤养分含量指标等,为两大苹果产区果园合理施肥、提高果实品质等提供理论依据.于2010—2011年分别在我国环渤海湾和黄土高原两大苹果产区各选择22个县,每个县3片果园,共计132个乔砧‘富士’苹果园,对每个果园的土壤养分含量和果实品质指标进行调查和分析,应用偏最小二乘回归方法筛选不同产区影响果实品质的主要土壤养分因子,并建立果实品质因素与土壤养分含量关系的回归方程,线性规划求解不同产区优质‘富士’苹果的土壤养分含量优化方案.结果表明: 环渤海湾产区的土壤碱解氮、有效磷、钙、铁和锌含量极显著高于黄土高原产区,而土壤pH,有效钾含量显著低于黄土高原产区;黄土高原产区的果实可溶性固形物含量显著高于环渤海湾产区,而固酸比显著低于环渤海湾产区.土壤有效硼含量对两产区果实单果质量影响的正效应最大,而土壤总氮与两产区果实硬度呈负效应;环渤海湾产区的果实可溶性固形物含量主要受土壤总氮和有效硼的负、正效应影响,黄土高原产区主要受土壤有效钙和碱解氮正、负效应的影响.环渤海湾产区优质乔砧‘富士’苹果的土壤养分含量需求为高的土壤有效硼和pH,适宜的土壤有效钾;黄土高原产区为低的土壤全氮,高的碱解氮、有效钾和有效铁,适宜的土壤有效锌和硼.环渤海湾产区优质乔砧‘富士’苹果的土壤养分管理技术措施为增加土壤有效硼含量和调高土壤pH、调整土壤有效钾含量;而黄土高原产区为提高土壤碱解氮、有效钾和有效铁含量,降低果园土壤pH,适当调整土壤有效锌和有效硼含量.

关键词: 苹果, 土壤养分, 果实品质, 偏最小二乘回归

Abstract: The objective of this experiment is to probe into the influence of soil nutrient contents on fruit quality features of ‘Fuji’ apple, screen major soil nutrient factors affecting fruit quality features, clarify the suitable soil nutrient content for good fruit quality indicators, and to provide theoretical basis in reasonable orchard soil fertilizer application for improving fruit qua-lity in the Circum-Bohai and Loess Plateau apple production regions in China. The soil nutrient contents and ‘Fuji’ fruit qualities were respectively analyzed at 66 commercial ‘Fuji’ apple orchards standard rootstock in the Circum-Bohai and Loess Plateau apple production regions of 22 counties in China from 2010 to 2011. The partial least squares regression (PLS) was used to screen major soil nutrient elements affecting fruit quality, and to establish regression equation of relationship between fruit quality and major soil nutrition factors. Linear programming was used to obtain optimum proposals of soil nutrient elements for good apple quality. The results showed that alkaline hydrolytic N, available P, Ca, Fe, and Zn of soil were significantly higher while pH and available K were significantly lower in Circum-Bohai region than in Loess Plateau apple production region. Soluble solid content in Loess Plateau was higher than in Circum-Bohai; moreover, ratio of soluble solids content and titratable acidity was lower. The soil available B in the Circum-Bohai and Loess Plateau apple production regions had positive effect on fruit mass, and total N had negative effect on fruit firmness. The soluble solid contents in the Circum-Bohai were mainly negatively affected by total N and positively by available B, while positively affected by available Ca and negatively by alkaline hydrolytic N in the Loess Plateau region. The desired soil nutrients for good fruit qualities were high avai-lable B, pH and suitable available K in the Circum-Bohai, and low total N, high alkaline hydrolytic N, available K, Fe and suitable available Zn and B in the Loess Plateau region. It was the key technical measures in soil nutrient management for good fruit quality to increase available B and pH, adjust available K in the Circum-Bohai, and to enhance alkaline hydrolytic N, available K, Fe, and to decrease pH, and adjust available Zn and B in the Loess Plateau region.

Key words: apple, fruit quality, partial least squares regression, soil nutrient

张强, 李民吉, 周贝贝, 李兴亮, 孙健, 张军科, 魏钦平. 两大优势产区‘富士’苹果园土壤养分与果实品质关系的多变量分析[J]. 应用生态学报, 2017, 28(1): 105-114.

ZHANG Qiang, LI Min-ji, ZHOU Bei-bei, LI Xing-liang, SUN Jian, ZHANG Jun-ke, WEI Qin-ping. Multivariate analysis of relationship between soil nutrient factors and fruit quality characte-ristic of ‘Fuji’ apple in two dominant production regions of China[J]. Chinese Journal of Applied Ecology, 2017, 28(1): 105-114.

参考文献

[1] Zhang Q (张强), Wei Q-P (魏钦平), Liu X-D (刘旭东), et al. Multivariate analysis of relationship between soil nutrients, pH and fruit mineral nutrition in Fuji apple orchards of Changping, Beijing. Journal of Fruit Science (果树学报), 2011, 28(3): 377-383 (in Chinese)
[2] Zhang Q (张强), Wei Q-P (魏钦平), Jiang R-S (蒋瑞山), et al. Evaluation and analysis of soil physicochemical characteristics and fruit quality in main apple production regions of Beijing. Acta Horticulturae Sinica (园艺学报), 2011, 38(11): 2180-2186 (in Chinese)
[3] Wang H-Y (王海云), Jiang Y-M (姜远茂), Peng F-T (彭福田), et al. Study on the relationship between the soil available nutrition and yield in apple orchard of Jiaodong. Journal of Shandong Agricultural University (Natural Science) (山东农业大学学报:自然科学版), 2008, 39(1): 31-38 (in Chinese)
[4] Liang G-H (梁关会), Liu L (刘林), Quan D-G (权定国), et al. Soil nutrients of apple orchard in Loess Tableland of Weibei Arid Plateau. Shanxi Forest Science and Technology (陕西林业科技), 2013(5): 1-4 (in Chinese)
[5] Gao Y-M (高义民), Tong Y-A (同延安), Lu Y-L (路永莉), et al. Effects of soil available nutrients and long-term fertilization on yield of Fuji apple orchard of Weibei area in Shaxi, China. Acta Horticulturae Sinica (园艺学报), 2013, 40(4): 613-622 (in Chinese)
[6] Guo Q-E (郭全恩), Guo T-W (郭天文), Wang Y-Q (王益权), et al. Correlation analysis on apple leaves nutrition and soil nutrient in arid area in Gansu Pro-vince. Chinese Journal of Soil Science (土壤通报), 2013, 40(1): 114-117 (in Chinese)
[7] Liu Z-L (刘子龙), Zhang G-J (张广军), Zhao Z-Y (赵政阳), et al. Survey on the state of soil nutrient of apple orchards in the major production area of Shanxi. Journal of Northwest Forestry University (西北林学院学报), 2006, 21(2): 50-53 (in Chinese)
[8] Raese JT, Drake SR, Curry EA. Nitrogen fertilizer influences fruit quality, soil nutrients and cover crops, leaf color and nitrogen content, biennial bearing and cold hardiness of ‘Golden Delicious’. Journal of Plant Nutrition, 2007, 30: 1585-1604
[9] Mukherjee R, Sengupta D, Sikdar SK. Parsimonious use of indicators for evaluating sustainability systems with multivariate statistical analyses. Clean Technology Environment Policy, 2013, 15: 699-706
[10] Siddique M, Siddique MT, Ali S, et al. Macronutrient assessment in apple growing region of Punjab. Soil & Environment, 2009, 28: 184-192
[11] Xu H (徐慧), Chen X-X (陈欣欣), Wang Y-Z (王永章), et al. Correlation and path analysis between mineral element and quality indicators of ‘Fuji’ apple fruits. Chinese Agricultural Science Bulletin (中国农学通报), 2014, 30(25): 116-121 (in Chinese)
[12] Zhou B-B (周贝贝), Zhang Q (张强), Sun J (孙健), et al. Study and application of partial least squares regression on relationship between soil nutrient and fruit quality. Journal of Fruit Science (果树学报), 2016, 33(1): 106-112 (in Chinese)
[13] Bao S-D (鲍士旦). Soil Agrochemical Analysis. 3rd Ed. Beijing: China Agriculture Press, 2005 (in Chinese)
[14] Wang H-W (王惠文), Liu Q (刘强), Tu Y-P (屠永平). Identification of optimal subspace from PLS regression. Journal of Beijing University of Aeronautics and Astronautics (北京航空航天大学学报), 2000, 26(4): 473-476 (in Chinese)
[15] Casero T, Benavides AL, Recasens I. Interrelation between fruit mineral content and preharvest calcium treatments on ‘Golden Smoothee’ apple quality. Journal of Plant Nutrition, 2010, 33: 27-37
[16] Fallahi E, Fallahi B, Neilsen GH, et al. Effects of mi-neral nutrition on fruit quality and nutritional disorders in apples. Acta Horticulturae, 2010, 868: 49-59
[17] Peck GM, Merwin IA, Thies JE, et al. Soil properties change during the transition to integrated and organic apple production in a New York orchard. Applied Soil Eco-logy, 2011, 48: 18-30
[18] Bennewitz EV, Cooper T, Benavides C, et al. Response of “Jonagold” apple trees to Ca, K and Mg fertilization in an andisol in southern Chile. Journal of Soil Science and Plant Nutrition, 2011, 11: 71-81
[19] Zhang Q (张强), Wei Q-P (魏钦平), Liu H-P (刘惠平), et al. Multivariate analysis and optimum propo-sals of the relationship between soil nutrients and fruit qualities in apple orchard. Scientia Agricultura Sinica (中国农业科学), 2011, 44(8): 1654-1661 (in Chinese)
[20] Wang F-L (王富林), Men Y-G (门永阁), Ge S-F (葛顺峰), et al. Research on soil and leaf nutrient diagnosis of ‘Red Fuji’ apple orchard in two-dominant producing areas. Scientia Agricultura Sinica (中国农业科学), 2013, 46(14): 2970-2978 (in Chinese)

两大优势产区‘富士’苹果园土壤养分与果实品质关系的多变量分析

Multivariate analysis of relationship between soil nutrient factors and fruit quality characte-ristic of ‘Fuji’ apple in two dominant production regions of China

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