不同產(chǎn)區(qū)華碩蘋果品質(zhì)差異性分析

魯興凱 馬勉娣 譚安超 曾廳余 馬靜 吳冬 全勇

收稿日期：2023-08-07 接受日期：2023-11-05

基金項目：云南省昭通市鯤鵬計劃-高層次領(lǐng)軍人才項目

作者簡介：魯興凱，男，農(nóng)業(yè)推廣研究員，研究方向為蘋果科研與技術(shù)推廣。E-mail：857095036@qq.com。#為共同第一作者。馬勉娣，女，高級農(nóng)藝師，碩士，研究方向為果樹科研與技術(shù)推廣。E-mail：1714070650@qq.com

*通信作者 Auther for correspondence. E-mail：56254981@qq.com；E-mail：563197296@qq.com

DOI：10.13925/j.cnki.gsxb.20230301

摘? ? 要：【目的】分析和評價不同產(chǎn)區(qū)華碩蘋果果實品質(zhì)，為蘋果品質(zhì)評價、區(qū)域適應(yīng)性研究和優(yōu)化布局提供學(xué)術(shù)理論參考。【方法】用F檢驗和雙側(cè)t檢驗對不同產(chǎn)區(qū)間華碩蘋果果實品質(zhì)指標(biāo)差異顯著性分析，用變異系數(shù)權(quán)重法和TOPSIS法對分類品質(zhì)性狀和綜合品質(zhì)性狀進(jìn)行比較評價?！窘Y(jié)果】（1）果面顏色a值、咀嚼性、維生素C含量、總酸含量和糖酸比5項指標(biāo)不同產(chǎn)區(qū)間差異顯著。（2）果面要素a值西南產(chǎn)區(qū)極顯著高于環(huán)渤海灣產(chǎn)區(qū)，顯著高于黃河故道產(chǎn)區(qū)；咀嚼性西南產(chǎn)區(qū)極顯著高于黃土高原產(chǎn)區(qū)，顯著高于黃河故道產(chǎn)區(qū)和環(huán)渤海灣產(chǎn)區(qū)；維生素C含量西南產(chǎn)區(qū)顯著高于黃土高原產(chǎn)區(qū)和黃河故道產(chǎn)區(qū)；可溶性固形物含量黃土高原產(chǎn)區(qū)顯著高于環(huán)渤海灣產(chǎn)區(qū)；總糖含量西南產(chǎn)區(qū)極顯著低于黃河故道產(chǎn)區(qū)；總酸含量黃河故道產(chǎn)區(qū)顯著低于環(huán)渤海灣產(chǎn)區(qū)。（3）西南產(chǎn)區(qū)外觀品質(zhì)性狀和質(zhì)地品質(zhì)性狀最優(yōu)，黃河故道產(chǎn)區(qū)營養(yǎng)品質(zhì)性狀最優(yōu)；綜合得分西南產(chǎn)區(qū)25.804、黃土高原產(chǎn)區(qū)25.662、黃河故道產(chǎn)區(qū)25.541、環(huán)渤海灣產(chǎn)區(qū)20.865?！窘Y(jié)論】不同產(chǎn)區(qū)華碩品質(zhì)各有特點，綜合評價西南產(chǎn)區(qū)最優(yōu)、黃土高原產(chǎn)區(qū)其次、黃河故道產(chǎn)區(qū)和環(huán)渤海灣產(chǎn)區(qū)位列第三和第四，西南產(chǎn)區(qū)和黃土高原產(chǎn)區(qū)更有利于華碩品種優(yōu)勢和特色發(fā)揮。

關(guān)鍵詞：華碩蘋果； 品質(zhì)；產(chǎn)區(qū)

中圖分類號：S661.1 文獻(xiàn)標(biāo)志碼：A 文章編號：1009-9980（2024）01-0030-11

Analysis on the difference in fruit quality of Huashuo apples from different areas

LU Xingkai1， MA Miandi1#， TAN Anchao1， ZENG Tingyu2*， MA Jing1， WU Dong1， QUAN Yong1*

（1Zhaotong Apple Industry Development Center， Zhaotong 657000， Yunnan， China; 2Zhaotong Meteorological Bureau， Zhaotong 657000， Yunnan， China）

Abstract： 【Objective】 Apple is the largest fruit in China， in terms of both planting area and production， making China the leading country in apple production and consumption worldwide. Over the course of more than a century， the cultivation of apples and advancements in scientific and technological progress have led to significant developments and transformations in the industry. This has resulted in the emergence of distinctive apple production areas in China， including the cold and cool highlands of Yunnan， Sichuan， and Guizhou provinces; the Bohai Bay area represented by Shandong， Liaoning， and Hebei provinces; the Ancient Channel of Yellow River area represented by eastern Henan and southwestern Shandong; and the Loess Plateau area represented by Shaanxi， Shanxi， western Henan， and Gansu provinces. These areas possess climatic factors that meet the growth and development requirements of apple trees. However， due to the vast territory of China and the wide distribution range of apple production areas， there exist significant variations and differences in geographical factors such as longitude， latitude， and altitude. Consequently， the same apple variety exhibits distinct quality characteristics in different production areas. To further explore and comprehensively analyze the quality differences of apples in these four production areas， this study focused on the current industry status， which is dominated by the late-maturing variety， Red Fuji， accounting for approximately 70% of the production， with a severe shortage of early-to-mid maturing varieties. The study selected the Huashuo variety， an early-maturing and high-quality variety independently bred in China as the research object in four superior production areas. Modern statistical analysis methods were applied to compare quality indicators， aiming to provide academic and theoretical references for apple variety quality evaluation， areal adaptability of excellent varieties， and planting layout and structural adjustment in China. 【Methods】 The fruits were selected from three different plots in the four dominant apple producing areas， including the cold and cool highland in southwest China， the Bohai Bay area， the Ancient Channel of Yellow River area， and the Loess Plateau area. The selected plots had relatively consistent combinations of tree age and planting patterns. Huashuo variety of apple trees in these plots were in their optimal harvesting period without bagging. A total of 2 appearance indicators （fruit shape index and fruit surface color a-value）， 8 texture indicators （including fracture， hardness， maximum adhesion， adhesion， cohesion， etc.）， and 7 nutritional and physicochemical indicators （such as soluble solids， vitamin C， fructose， total sugar， etc.） were measured. The differences in these 17 individual quality indicators were evaluated using the F-test. Furthermore， pairwise comparisons using bilateral t-test were conducted to assess the differences in quality indicators among the different production areas. The Coefficient of Variation Weighting Method was employed to evaluate the classification differences in appearance， texture， and nutritional and physicochemical quality indicators. Technique for Order of Preference by Similarity to Ideal Solution （TOPSIS） method was used to evaluate the comprehensive quality in the four production areas. This comprehensive research approach allowed for the assessment of differences in the 17 individual quality indicators and the overall quality comparison among the four dominant apple production areas. 【Results】 （1） The results of the F-test indicated that there were significant differences among the four production areas in five quality indicators， namely fruit surface color a-value， chewiness， vitamin C content， total acid， and sugar-acid ratio. However， there were no significant differences observed in the other twelve quality indicators. （2） The bilateral t-test revealed that the southwestern production area exhibited significantly higher color a value compared to the Bohai Bay area and the Ancient Channel of Yellow River area. In terms of chewiness， the southwestern production area showed significantly or extremely significantly higher values compared to the other production areas. The vitamin C content in the southwest production area was significantly higher than that in the Loess Plateau and the Ancient Channel of Yellow River areas. Soluble solid content in the Loess Plateau area was significantly higher than in the Bohai Bay area. The southwestern production area had a significantly lower total sugar content compared to the Ancient Channel of Yellow River area. The Ancient Channel of Yellow River area had a significantly lower total acid compared to the Bohai Bay area. The sugar-acid ratio in the Ancient Channel of Yellow River area was extremely significantly higher than that in the Bohai Bay area and significantly higher than that in the southwestern production area. （3） The Coefficient of Variation Weighting Method revealed that the appearance quality traits and texture quality traits were the best in the southwest production area; the nutritional quality traits in Ancient Channel of Yellow River area were the best. The comprehensive scores were 25.804， 25.662， 25.541 and 20.865 in southwestern production area， Loess Plateau area， Ancient Channel of Yellow River area and Bohai Bay area， respectively. Therefore， the southwestern production area had the highest overall score， while the Bohai Bay area had relatively poorer performance. （4） The TOPSIS comprehensive scoring method was employed to evaluate the performance of the different production areas. The southwestern production area achieved a score of 0.696， the highest overall evaluation. The Loess Plateau area obtained a score of 0.522， ranking second， while the Ancient Channel of Yellow River area received a score of 0.413， ranking third. The Bohai Bay area obtained the lowest score of 0.360， ranking fourth in the evaluation. 【Conclusion】 The four dominant apple production areas each exhibited distinct quality characteristics for the Huashuo variety. The climatic conditions and soil characteristics in the southwestern area may provide an ideal growth environment for the Huashuo variety， resulting in significant advantages in fruit surface color， texture， vitamin C content， total acidity， and sugar-acid ratio. The southwestern area ranked the first in terms of the comprehensive quality of Huashuo apples， followed by the Loess Plateau area， with the Ancient Channel of Yellow River area and Bohai Bay areas ranking the third and the fourth， respectively. Due to regional variations， consumer preferences， and differences among various consumer groups， certain quality indicators may not accurately reflect consumers preferences. The formation of apple quality is influenced by various factors， including geographical and climatic conditions， as well as cultivation management practices. Therefore， further in-depth exploration is needed to understand the underlying causes of quality differences in order to gain a comprehensive understanding of the factors contributing to these variations.

Key words： Huashuo apples; Quality; Production areas

Analysis on the difference in fruit quality of Huashuo apples from different areas

LU Xingkai1， MA Miandi1#， TAN Anchao1， ZENG Tingyu2*， MA Jing1， WU Dong1， QUAN Yong1*

（1Zhaotong Apple Industry Development Center， Zhaotong 657000， Yunnan， China; 2Zhaotong Meteorological Bureau， Zhaotong 657000， Yunnan， China）

Abstract： 【Objective】 Apple is the largest fruit in China， in terms of both planting area and production， making China the leading country in apple production and consumption worldwide. Over the course of more than a century， the cultivation of apples and advancements in scientific and technological progress have led to significant developments and transformations in the industry. This has resulted in the emergence of distinctive apple production areas in China， including the cold and cool highlands of Yunnan， Sichuan， and Guizhou provinces; the Bohai Bay area represented by Shandong， Liaoning， and Hebei provinces; the Ancient Channel of Yellow River area represented by eastern Henan and southwestern Shandong; and the Loess Plateau area represented by Shaanxi， Shanxi， western Henan， and Gansu provinces. These areas possess climatic factors that meet the growth and development requirements of apple trees. However， due to the vast territory of China and the wide distribution range of apple production areas， there exist significant variations and differences in geographical factors such as longitude， latitude， and altitude. Consequently， the same apple variety exhibits distinct quality characteristics in different production areas. To further explore and comprehensively analyze the quality differences of apples in these four production areas， this study focused on the current industry status， which is dominated by the late-maturing variety， Red Fuji， accounting for approximately 70% of the production， with a severe shortage of early-to-mid maturing varieties. The study selected the Huashuo variety， an early-maturing and high-quality variety independently bred in China as the research object in four superior production areas. Modern statistical analysis methods were applied to compare quality indicators， aiming to provide academic and theoretical references for apple variety quality evaluation， areal adaptability of excellent varieties， and planting layout and structural adjustment in China. 【Methods】 The fruits were selected from three different plots in the four dominant apple producing areas， including the cold and cool highland in southwest China， the Bohai Bay area， the Ancient Channel of Yellow River area， and the Loess Plateau area. The selected plots had relatively consistent combinations of tree age and planting patterns. Huashuo variety of apple trees in these plots were in their optimal harvesting period without bagging. A total of 2 appearance indicators （fruit shape index and fruit surface color a-value）， 8 texture indicators （including fracture， hardness， maximum adhesion， adhesion， cohesion， etc.）， and 7 nutritional and physicochemical indicators （such as soluble solids， vitamin C， fructose， total sugar， etc.） were measured. The differences in these 17 individual quality indicators were evaluated using the F-test. Furthermore， pairwise comparisons using bilateral t-test were conducted to assess the differences in quality indicators among the different production areas. The Coefficient of Variation Weighting Method was employed to evaluate the classification differences in appearance， texture， and nutritional and physicochemical quality indicators. Technique for Order of Preference by Similarity to Ideal Solution （TOPSIS） method was used to evaluate the comprehensive quality in the four production areas. This comprehensive research approach allowed for the assessment of differences in the 17 individual quality indicators and the overall quality comparison among the four dominant apple production areas. 【Results】 （1） The results of the F-test indicated that there were significant differences among the four production areas in five quality indicators， namely fruit surface color a-value， chewiness， vitamin C content， total acid， and sugar-acid ratio. However， there were no significant differences observed in the other twelve quality indicators. （2） The bilateral t-test revealed that the southwestern production area exhibited significantly higher color a value compared to the Bohai Bay area and the Ancient Channel of Yellow River area. In terms of chewiness， the southwestern production area showed significantly or extremely significantly higher values compared to the other production areas. The vitamin C content in the southwest production area was significantly higher than that in the Loess Plateau and the Ancient Channel of Yellow River areas. Soluble solid content in the Loess Plateau area was significantly higher than in the Bohai Bay area. The southwestern production area had a significantly lower total sugar content compared to the Ancient Channel of Yellow River area. The Ancient Channel of Yellow River area had a significantly lower total acid compared to the Bohai Bay area. The sugar-acid ratio in the Ancient Channel of Yellow River area was extremely significantly higher than that in the Bohai Bay area and significantly higher than that in the southwestern production area. （3） The Coefficient of Variation Weighting Method revealed that the appearance quality traits and texture quality traits were the best in the southwest production area; the nutritional quality traits in Ancient Channel of Yellow River area were the best. The comprehensive scores were 25.804， 25.662， 25.541 and 20.865 in southwestern production area， Loess Plateau area， Ancient Channel of Yellow River area and Bohai Bay area， respectively. Therefore， the southwestern production area had the highest overall score， while the Bohai Bay area had relatively poorer performance. （4） The TOPSIS comprehensive scoring method was employed to evaluate the performance of the different production areas. The southwestern production area achieved a score of 0.696， the highest overall evaluation. The Loess Plateau area obtained a score of 0.522， ranking second， while the Ancient Channel of Yellow River area received a score of 0.413， ranking third. The Bohai Bay area obtained the lowest score of 0.360， ranking fourth in the evaluation. 【Conclusion】 The four dominant apple production areas each exhibited distinct quality characteristics for the Huashuo variety. The climatic conditions and soil characteristics in the southwestern area may provide an ideal growth environment for the Huashuo variety， resulting in significant advantages in fruit surface color， texture， vitamin C content， total acidity， and sugar-acid ratio. The southwestern area ranked the first in terms of the comprehensive quality of Huashuo apples， followed by the Loess Plateau area， with the Ancient Channel of Yellow River area and Bohai Bay areas ranking the third and the fourth， respectively. Due to regional variations， consumer preferences， and differences among various consumer groups， certain quality indicators may not accurately reflect consumers preferences. The formation of apple quality is influenced by various factors， including geographical and climatic conditions， as well as cultivation management practices. Therefore， further in-depth exploration is needed to understand the underlying causes of quality differences in order to gain a comprehensive understanding of the factors contributing to these variations.

Key words： Huashuo apples; Quality; Production areas