平衡施肥对荒漠区黄冠梨生长与品质的影响

doi:10.13287/j.1001-9332.201808.010

摘要/Abstract

摘要： 对荒漠地区丰产期黄冠梨树生长发育特性、果实和叶片矿质元素含量进行分析,探讨平衡施肥对梨果生长和品质的影响,可为梨园确定合理的施肥水平提供理论依据.选取同一园区12年生黄冠梨为试验材料,设置低氮磷高硫(T₁)、中氮磷中硫(T₂)、高氮磷低硫(T₃)3个处理,以常规施肥为对照(CK).结果表明:不同处理对当年生枝和叶片的生长发育影响不大,但在连续施肥第2年后,T₁促进了当年生枝条的生长,枝条长度和粗度比对照分别提高了16.2%和11.4%.连续施肥2年后可以不同程度提高叶片中矿质元素的含量,其中T₁处理叶片Cu、Fe和Zn含量最高,T₂处理Mg和B含量最高,T₃处理P和Mn含量最高.与对照相比,不同施肥处理对果实产量影响均不明显,但对果实品质有较大影响,处理2年后T₂的可溶性糖和维生素C(Vc)含量均显著增加,分别比对照高出4.2%和7.1%,T₃处理有机酸含量最高,而T₁处理的可溶性固形物、可溶性糖和Vc含量均低于对照.果实中Fe含量与可溶性糖含量、果形指数呈显著正相关,分别与单果质量、有机酸和Vc含量呈显著负相关;P含量与果形指数、果实硬度呈显著正相关,与可溶性糖、有机酸和Vc含量呈显著负相关.综上,T₂处理在保证稳产、丰产的前提下,又起到了改善果实品质的作用,可作为荒漠区黄冠梨生产中适宜的施肥措施.

Abstract: A field experiment was carried out to study the effects of balanced fertilization on growth and development, yield, fruit quality and mineral content in ‘Huang-guan’ pear to provide a theoretical basis for the reasonable level of fertilization in pear orchards. Four treatments were arranged with 12-year old ‘Huang-guan’ pear trees from the same orchard: conventional fertilization (CK), low levels of N, P₂O₅ and high level of S (T₁), medium levels of N, P₂O₅ and S (T₂), high levels of N, P₂O₅ and low level of S (T₃). The results showed that different treatments had little effect on the growth and development of current-year branch and leaves in the first year. However, in the se-cond year, T₁ treatment promoted the length and diameter of current-year branch by 16.2% and 11.4%, respectively. Continuous fertilization could increase the leaf mineral contents in different degrees. The contents of Cu, Fe, and Zn in leaves under T₁ treatment, Mg and B in leaves under T₂ treatment, and P and Mn in leaves under T₃ treatment were highest. Different fertilization levels had no significant effect on yield but on fruit quality. The contents of soluble sugars and vitamin C (Vc) were significantly increased by T₂ treatment, which was 4.2% and 7.1% higher than those in CK. However, T₁ significantly decreased contents of total soluble solid, soluble sugars and Vc, while highest organic acid content presented in T₃. Fruit Fe content was positively correlated with soluble sugar content and fruit shape index, but was negatively correlated with single fruit mass, organic acids and Vc. Fruit P content was positively correlated with fruit shape index and firmness, but was negatively correlated with contents of soluble sugars, organic acids and Vc. Accordingly, T₂ could improve fruit quality and maintain the productivity, and thus should be the suitable fertilization strategy for the ‘Huang-guan’ pear management in desert area.

曹刚, 赵明新, 毕淑海, 曹素芳, 王玮, 李红旭. 平衡施肥对荒漠区黄冠梨生长与品质的影响[J]. 应用生态学报, 2018, 29(8): 2477-2484.

CAO Gang, ZHAO Ming-xin, BI Shu-hai, CAO Su-fang, WANG Wei, LI Hong-xu. Effects of balanced fertilization on growth and fruit quality of ‘Huang-guan’ pear on desert area.[J]. Chinese Journal of Applied Ecology, 2018, 29(8): 2477-2484.

参考文献

[1] Han Z-H (韩振海), Wang Q (王倩). Current situation and prospects of research on fruit mineral nutrition in China: A literature review. Acta Horticulturae Sinica (园艺学报), 1995, 22(2): 138-146 (in Chinese)
[2] Bai Y-L (白由路). Review on research in plant nutrition and fertilizers. Scientia Agricultura Sinica (中国农业科学), 2015, 48(17): 3477-3492 (in Chinese)
[3] Drenovsky RE, Koehler CE, Skelly K, et al. Potential and realized nutrient resorption in serpentine and non-serpentine chaparral shrubs and trees. Oecologia, 2013, 171: 39-50
[4] Ratnam J, Sankaran M, Hanan NP, et al. Nutrient resorption patterns of plant functional groups in a tropical savanna: Variation and functional significance. Oecologia, 2008, 157: 141-151
[5] Marschner H. Mineral Nutrition of Higher Plants. 2nd Ed. London: Academic Press, 1995
[6] Lu S-C (卢树昌), Chen Q (陈清), Zhang F-S (张福锁), et al. Analysis of nitrogen input and soil nitrogen load in orchards of Hebei Province. Plant Nutrition and Fertilizer Science (植物营养与肥料学报), 2008, 14(5): 858-865 (in Chinese)
[7] Cowell TD. Some consideration in modeling the effects of fertilizers on crop yield. Journal of the Australian Insti-tute of Agricultural Science, 1981, 47: 142-148
[8] Li S-X (李生秀). The current state and prospect of plant nutrition and fertilizer science. Plant Nutrition and Fertilizer Science (植物营养与肥料学报), 1999, 5(3): 110-111 (in Chinese)
[9] Zhu X-Q (朱向秋), Wei J-M (魏建梅),Yan N-G (阎乃庚), et al. Research status and prospect of Jizhua disease of Huangguan pear. Journal of Hebei Agricultural Sciences (河北农业科学), 2009, 13(9): 26-28 (in Chinese)
[10] Li Y-Y (李玉影), Liu S-Q (刘双全), Ji J-H (姬景红), et al. Effect of balanced fertilization on yield, nutrient balance coefficient and fertilizer use efficiency of corn. Journal of Maize Sciences (玉米科学), 2013, 21(3): 120-124 (in Chinese)
[11] Wang Y-L (王玉玲), Li J (李军). Study on soil water storage, crop yields and incomes under different soil tillage patterns with balance fertilization in the Loess Dryland region. Journal of Plant Nutrition and Fertilizer (植物营养与肥料学报), 2016, 22(1): 151-163 (in Chinese)
[12] Zhang X-C (张绪成), Shangguan Z-P (上官周平). Effects of nitrogen application rate on nitrate reductase activity, nitric oxide content and gas exchange in winter wheat leaves. Chinese Journal of Applied Ecology (应用生态学报), 2007, 18(7): 1447-1452 (in Chinese)
[13] Liang Z-E (梁仲锷). Effects of different cropping patterns and fertilization on soil fertility, the yield of potato and water use efficiency. Journal of Irrigation and Drainage (灌溉排水学报), 2016, 35(1): 53-58 (in Chinese)
[14] Man J-G (满建国), Zhou J (周杰), Wang D (王东), et al. Effects of sulfur plus resin-coated controlled release urea fertilizer on winter wheat dry matter accumulation and allocation and grain yield. Chinese Journal of Applied Ecology (应用生态学报), 2011, 22(5): 1175-1182 (in Chinese)
[15] Dai P-A (戴平安), Liu C-Q (刘崇群), Zheng S-X (郑圣先), et al. Soil sulphur status and citrus sulphur application response. Plant Nutrition and Fertilizer Science (植物营养与肥料学报), 2006, 12(5): 687-693 (in Chinese)
[16] Zhang C-A (张昌爱), Zhang M (张民), Zeng Y-C (曾跃春), et al. Effects of sulfur on chemical properties of calcareous soil. Chinese Journal of Applied Ecology (应用生态学报), 2007, 18(7): 1453-1458 (in Chinese)
[17] Zhao Y-X (赵玉霞), Li N (李娜), Zhou F (周芳), et al. Effects of N and S application on grain filling characteristics and yield of winter wheat. Chinese Journal of Applied Ecology (应用生态学报), 2014, 25(5): 1366-1372 (in Chinese)
[18] Wu Y-D (吴玉德), Liu J-S (刘继生). Mensuration methods for single leaf area of apple-pear. Journal of Agricultural Science Yanbian University (延边大学农学学报), 2006, 28(4): 259-262 (in Chinese)
[19] Li G-H (李桂花), Ye X-L (叶小兰), Lyu Z-G (吕子古), et al. Comparison of element analyzer (dumas combustion) and automated Kjeldahl analyzer (Kjeldahl methods) for determining total nitrogen content in soils. Soil and Fertilizer Sciences in China (中国土壤与肥料), 2015, 33(3): 111-115 (in Chinese)
[20] Ye J (叶峻). Determination of trace mineal elements in Chinese yam by microwave digestion: Inductively coupled plasma atomic emission spectrometry (ICP-AES) and its comparative study. Chinese Journal of Inorganic Analytical Chemistry (中国无机分析化学), 2014, 4(4): 60-61 (in Chinese)
[21] Colaric M, Stampar F, Hudina M. Content levels of various fruit metabolites in the ‘Conference’ pear response to branch bending. Scientia Horticulturae, 2007, 113: 261-266
[22] Sun Z, Li Y, Zhou J, et al. Effects of exogenous nitric oxide on contents of soluble sugars and related enzyme activities in ‘Feicheng’ peach fruit. Journal of the Science of Food and Agriculture, 2011, 91: 1795-1800
[23] Kevers C, Falkowski M, Tabart J, et al. Evolution of antioxidant capacity during storage of selected fruits and vegetables. Journal of Agricultural and Food Chemistry,2007, 55: 8596-8603
[24] Chen L (陈磊), Wu T (伍涛), Zhang S-L (张绍铃), et al. Effects of nitrogen fertilizer on fruit quality and leaf physiological metabolism of Hosui pear. Journal of Fruit Science (果树学报), 2010, 27(6): 871-876 (in Chinese)
[25] Yao Y-K (姚银坤), Zhang Y (张炎), Hu W (胡伟), et al. Effects of phosphorus application on biomass accumulation, distribution rate and yield of sea island cotton. Soil and Fertilizer Sciences in China (中国土壤与肥料), 2008, 26(5): 36-40 (in Chinese)
[26] Wang C-S (王常顺), Wang S-P (汪诗平). A review of research on responses of leaf traits to climate change. Chinese Journal of Plant Ecology (植物生态学报), 2015, 39(2): 206-216 (in Chinese)
[27] Liu M-X (刘明秀), Liang G-L (梁国鲁). Research progress on leaf mass per area. Chinese Journal of Plant Ecology (植物生态学报), 2016, 40(8): 847-860 (in Chinese)
[28] Li P (李蟠), Sun Y-F (孙玉芳), Wang S-G (王三根), et al. Altitudinal changes in leaf mass per unit area and tissue non-structural carbohydrates content of Abies fabri on Gongga Mountain of southwest China. Chinese Journal of Applied Ecology (应用生态学报), 2008, 19(1): 8-12 (in Chinese)
[29] 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 Shaanxi, China. Acta Horticulturae Sinica (园艺学报), 2013, 40(4): 613-622 (in Chinese)
[30] Xu M-G (徐明岗), Li D-C (李冬初), Li J-M (李菊梅), et al. Effects of organic manure application combined with chemical fertilizers on nutrients absorption and yield of rice in Hunan of China. Scientia Agricultura Sinica (中国农业科学), 2008, 7(10): 3133-3139 (in Chinese)
[31] Zhang T-T (张彤彤), Xu F-L (徐福利), Wang Y-K (汪有科), et al. Effects of fertilization on growth and seasonal dynamic of leaf nutrients of close planting pear-jujube trees. Plant Nutrition and Fertilizer Science (植物营养与肥料学报), 2012, 18(1): 241-248 (in Chinese)
[32] Chai Z-P (柴仲平), Wang X-M (王雪梅), Chen B-L (陈波浪), et al. Influences of different treatments of N, P, K fertilization proportion on fruit quality in Pyrus brestschneideri. Nonwood Forest Research (经济林研究), 2013, 31(3): 154-157 (in Chinese)
[33] Zhang H-Y (张海英), Han T (韩涛), Wang Y-N (王有年), et al. Selection of factors for evaluating peach (Prunus persica) fruit quality. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2006, 22(8): 235-239 (in Chinese)
[34] Zhou X-J (周晓今), Chen R-M (陈茹梅), Fan Y-L (范云六). Molecular mechanism of iron uptake, translocation and storage in plants. Crop Research (作物研究), 2012, 26(5): 605-610 (in Chinese)
[35] 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)
[36] Zhang Q (张强), Li M-J (李民吉), Zhou B-B (周贝贝), et al. Multivariate analysis of relationship between soil nutrient factors and fruit quality characteristic of ‘Fuji’ apple in two dominant production regions of China. Chinese Journal of Applied Ecology (应用生态学报), 2017, 28(1): 105-114 (in Chinese)
[37] Jia B (贾兵), Zhu L-W (朱立武), Zhang S-L (张绍铃). Preliminary study on the action of the mineral element Fe in fruit calyx development of ‘Dangshan Suli’ pear. Acta Horticulturae Sinica (园艺学报), 2012, 39(1): 159-167 (in Chinese)
[38] Gilmar RN, Antonio RD. DRIS use on apple orchard nutritional evaluation in response to potassium fertilization. Communications in Soil Science & Plant Analysis, 2007, 38: 2557-2566
[39] Li M-G (李美桂), Xie W-L (谢文龙), Xie Z-C (谢钟琛), et al. Study on the optimum parameters of mineral nutrition in orchard for early season pear cultivars. Journal of Fruit Science (果树学报), 2008, 25(4): 473-477 (in Chinese)
[40] Yu N-W (于年文), Li J-C (李俊才), Wang J-Z (王家珍), et al. Investigation and analysis on nutrient status of soil and leaves in ‘Nanguoli’ pear orchards in Liaoning Province. Journal of Fruit Science (果树学报), 2013, 30(2): 254-259 (in Chinese)
[41] Deng L-L (邓丽莉), Shen L (申琳), Sheng J-P (生吉萍). Carbohydrate metabolism of two climacteric fruits and its impact on fruit quality. Food Science (食品科学), 2013, 34(19): 351-355 (in Chinese)