砧穗互作对沃柑果皮色泽及树体营养吸收的影响OA
Effects of rootstock-scion interaction on peel coloration and nutrient ab-sorption in Orah Mandarin
[目的]探究不同砧木对沃柑果皮色泽及树体营养吸收的影响,为桂南地区沃柑砧木的适应性研究提供理论依据.[方法]以嫁接于4种砧木上的沃柑为材料,连续3年测定果实色泽参数(L*、a*、b*、CCI)及叶片大、中、微量元素含量,通过主成分分析进行综合评价.[结果]砧木类型显著影响沃柑果实品质与营养吸收.在果实色泽方面,红橘砧果面亮度(L*=58.08)和黄色度(b*=54.72)最高;枳橙砧和枳砧在果实红色度(a*值分别为38.60和38.21)与色泽饱和度(CCI值分别为13.92和13.51)上更优.在营养吸收方面,香橙砧显著促进了N、P、K、S的积累;枳砧对Mg、Cu、Zn的富集能力最强;枳橙砧对Mn和B的吸收效率最高;红橘砧则有利于Zn的积累.主成分分析显示,前3个主成分累计贡献率达81.19%,综合得分排序为红橘砧(0.867~0.935)>枳砧(0.528~0.632)>香橙砧(0.342~0.452)>枳橙砧(-0.896~-0.958),红橘砧在果实色泽与营养均衡性方面表现最优.[结论]砧木选择需结合果园土壤条件与生产目标.追求外观品质可选用枳砧或枳橙砧;应对Mn、B缺乏的土壤宜用枳橙砧;在酸性或Cu、Zn元素缺乏的土壤中,枳砧与红橘砧更具优势;香橙砧适宜培养强健树势.红橘砧在综合评价中表现均衡,可作为优先推荐砧木,但需注意其果实品质存在采收期依赖性,不宜过早采收,建议将采收期延迟至2月以充分发挥品质优势.
[Objective]Rootstock selection is a critical determinant of citrus productivity and fruit quali-ty.This study systematically evaluated the impact of four commercially significant rootstocks,Trifoliate orange(Poncirus trifoliata),Red tangerine(Citrus reticulata),Ziyang Xiangcheng(C.junos Sieb.ex Tanaka),and Carrizo citrange(C.sinensis×Poncirus trifoliata),on peel coloration and leaf mineral nu-trients in Orah mandarin(C.reticulata Blanco cv.Orah).The objective was to identify optimal root-stocks tailored to specific soil conditions and production objectives,thereby offering a scientific founda-tion for precision orchard management in Orah mandarin cultivation.[Methods]A three-year field ex-periment was conducted from 2018 to 2020.The study utilized five-year-old Orah mandarin trees graft-ed onto the above four rootstock types.The experimental trees were selected based on consistent tree age,canopy size,and management practices.Annually,at commercial maturity,fruit peel color was as-sessed using a colorimeter to measure CIE L*(lightness),a*(red-green),and b*(yellow-blue)values,and the Citrus Color Index(CCI)was calculated to evaluate color saturation.Leaf samples were collect-ed concurrently and analyzed for macronutrients(N,P and K),secondary nutrients(Ca,Mg and S),and micronutrients(Fe,Mn,B,Cu and Zn)following standard analytical procedures.Data were subjected to analysis of variance(ANOVA),Duncan's multiple range test,and principal component analysis(PCA).For PCA,15 indicators,including color parameters(L*,a*,b*,CCI)and nutrient contents from 12 sam-ples(three replicates per rootstock)were standardized.Principal components with eigenvalues greater than 1 were extracted to develop a comprehensive evaluation model.[Results]The genotype of the rootstock significantly influenced both fruit peel coloration and leaf nutrient content,with consistent patterns observed across the three-year study period.Regarding fruit coloration,annual variations were evident,yet rootstock-specific performance remained stable.The Red tangerine rootstock consistently yielded fruit with the highest peel lightness(L*),recording values of 57.18(2018),59.95(2019),and 57.12(2020),and a three-year average of 58.08,which was significantly higher(P<0.05)than that of Carrizo citrange(54.52).Similarly,Red tangerine also induced the most intense yellowness(b*),peak-ing at 55.69 in 2020,with a three-year average of 54.72.In contrast,Carrizo citrange and Trifoliate or-ange rootstocks consistently generated deeper red hue(a*)and higher color saturation(CCI),with a*values of 38.60 and 38.21,and CCI values of 13.92 and 13.51,respectively,which were significantly higher than those of Ziyang Xiangcheng and Red tangerine.A declining trend in yellowness(b*)was observed in fruits from Ziyang Xiangcheng over the three years.In terms of mineral nutrition,different rootstocks exhibited distinct elemental absorption preferences.Ziyang Xiangcheng led to the highest ac-cumulation of macronutrients,with leaf N and P contents of 2.89%and 0.13%,respectively,and K con-tent significantly higher(1.33%)than the other rootstocks,along with the highest S content(0.25%).Trifoliate orange showed a strong ability to enrich Mg(0.34%),which was significantly higher than the other rootstocks,and also accumulated the highest levels of Cu(407.43 mg·kg-1).Carrizo citrange dem-onstrated a high efficiency in absorbing specific micronutrients,with the highest Mn(80.81 mg·kg-1)and B(221.64 mg·kg-1)contents,which significantly exceeded the other rootstocks.Red tangerine also promoted Zn accumulation(78.98 mg·kg-1)and exhibited intermediate values for most of the nutrients,suggesting a more balanced nutritional profile.Notably,rootstock genotype had no significant effect on Fe absorption.Principal component analysis(PCA)revealed that the first three principal components explained 81.19%of the total variance,identified as the"macronutrient factor"(PC1,45.49%),"color factor"(PC2,21.67%),and"secondary/micronutrient factor"(PC3,14.03%).The comprehensive evalu-ation model,based on weighted factor scores,ranked the rootstocks as follows:Red tangerine(0.867-0.935)>Trifoliate orange(0.528-0.632)>Ziyang Xiangcheng(0.342-0.452)>Carrizo citrange(-0.896 to-0.958),indicating that Red tangerine provided the best overall performance.[Conclusion]The re-sults demonstrate a pronounced rootstock-specific influence on the performance of Orah mandarin.No single rootstock demonstrated universal superiority;selection should therefore be tailored to local soil conditions and production objectives.Carrizo citrange and Trifoliate orange are recommended for or-chards aiming to enhance red fruit coloration.Carrizo citrange is particularly suitable for soils deficient in Mn or B.Trifoliate orange and Red tangerine are better adapted to acidic soils or those low in Cu and Zn,though potential Cu excess under Trifoliate orange requires monitoring.Ziyang Xiangcheng is ideal for poor soils or situations demanding vigorous tree growth.Notably,Red tangerine,achieving the high-est comprehensive evaluation score,exhibited well-balanced performance in both coloration and nutri-ent uptake,establishing it as a preferred choice for Orah cultivation in southern Guangxi.However,its fruit quality is strongly dependent on harvest timing:it is unsuitable for early harvest(e.g.,January)and attains optimal quality with delayed harvesting(recommended until February).For established orchards showing nutrient deficiency symptoms,inarching with a complementary rootstock represents a viable remedial approach.This study offers a scientific framework for evidence-based rootstock selection in Orah mandarin production,facilitating the synergistic improvement of fruit quality and nutrient use effi-ciency.
仇惠君;欧智涛;陈香玲;黄雁飞;黄太庆;欧强;刘淑仪;李旭;刘要鑫
广西壮族自治区农业科学院,南宁 530007广西壮族自治区农业科学院,南宁 530007广西壮族自治区农业科学院,南宁 530007广西壮族自治区农业科学院,南宁 530007广西壮族自治区农业科学院,南宁 530007广西桂洁农业开发有限公司,南宁 530041广西壮族自治区农业科学院,南宁 530007广西桂洁农业开发有限公司,南宁 530041广西壮族自治区农业科学院,南宁 530007
农业科技
沃柑砧穗互作果皮色泽树体营养
Orah MandarinRootstock-scion interactionPeel colorationPlant nutrient
《果树学报》 2026 (4)
863-872,10
广西农业科学院稳定资助科研团队项目(桂农科2021YT044)广西特色作物试验站专项(桂TS2022013)广西农业科学院科技发展基金项目(桂农科2023JZ02)
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