|本期目录/Table of Contents|

[1]朱海军,孙欣欣,赵群,等.薄壳山核桃锌素营养研究进展[J].江苏农业科学,2021,49(24):40-44.
 Zhu Haijun,et al.Research progress on zinc nutrition of Carya illinoensis[J].Jiangsu Agricultural Sciences,2021,49(24):40-44.
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薄壳山核桃锌素营养研究进展(PDF)
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《江苏农业科学》[ISSN:1002-1302/CN:32-1214/S]

卷:
第49卷
期数:
2021年第24期
页码:
40-44
栏目:
专论与综述
出版日期:
2021-12-20

文章信息/Info

Title:
Research progress on zinc nutrition of Carya illinoensis
作者:
朱海军1 孙欣欣2 赵群3 生静雅4
1. 江苏省农业科学院果树研究所/江苏省高效园艺作物遗传改良重点实验室,江苏南京 210014;2.南京大学金陵学院,江苏南京 210089;3.山东绿达建设发展集团有限公司,山东潍坊 261000; 4.江苏省农业科学院成果转化处,江苏南京 210014
Author(s):
Zhu Haijunet al
关键词:
薄壳山核桃缺锌锌素营养锌含量锌肥
Keywords:
-
分类号:
S664.106
DOI:
-
文献标志码:
A
摘要:
薄壳山核桃(Carya illinoensis)是我国大力发展的木本油料树种之一,其对锌需求量相对较高,对缺锌非常敏感,缺锌被认为是20世纪以来薄壳山核桃生产栽培上的主要问题。综述薄壳山核桃对缺锌的生理响应、需求量以及不同锌肥种类、施用方式等矫正方法,提出了未来的研究思路和方向,以期为我国薄壳山核桃养分管理提供借鉴。
Abstract:
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参考文献/References:

[1]Zhu H J. Challenges for the expanding pecan industry in China[J]. Pecan South,2018,51(9):16-23.
[2]Marschner H. Mineral nutrition and yield response[M]. Amsterdam:Elsevier,1995.
[3]Sparks D. Concentration and content of 14 elements of fruit of pecan[J]. HortScience,1975,10:517-519.
[4]Fenn L B,Malstrom H L,Riley T,et al. Acidification of calcareous soils improves zinc absorption of pecan trees[J]. Journal of the American Society for Horticultural Science,1990,115(5):741-744.
[5]Sparks D,Madden G D. Effect of genotype on the elemental concentration of pecan leaves[J]. HortScience,1977,12(3):251-252.
[6]Sparks D. Threshold leaf levels of zinc that influence nut yield and vegetative growth in pecan[J]. HortScience,1993,28(11):1100-1102.
[7]尚杨娟,谭鹏鹏,范平桦,等. 薄壳山核桃叶面喷锌效果的评价[J]. 浙江农林大学学报,2020,37(6):1071-1079.
[8]朱海军,刘广勤,曹福亮,等. 施锌对薄壳山核桃幼苗生长及体内锌分配的影响[J]. 南京林业大学学报(自然科学版),2012,36(4):75-78.
[9]黄瑞敏,李健,袁紫倩,等. 长山核桃马汉中锌元素含量的动态变化[J]. 果树学报,2016,33(5):570-577.
[10]黄瑞敏. 锌对薄壳山核桃生长和果实品质的影响[D]. 杭州:浙江农林大学,2017.
[11]Hu H N,Sparks D. Zinc deficiency inhibits chlorophyll synthesis and gas exchange in ‘Stuart’ pecan[J]. HortScience,1991,26(3):267-268.
[12]Ojeda-Barrios D,Abadía J,Lombardini L,et al. Zinc deficiency in field-grown pecan trees:changes in leaf nutrient concentrations and structure[J]. Journal of the Science of Food and Agriculture,2012,92(8):1672-1678.
[13]Kim T,Wetzstein H Y. Cytological and ultrastructural evaluations of zinc deficiency in leaves[J]. Journal of the American Society for Horticultural Science,2003,128(2):171-175.
[14]Snir I. Carbonic anhydrase activity as an indicator of zinc deficiency in pecan leaves[J]. Plant and Soil,1983,74(2):287-289.
[15]Kim T. Nutritional and developmental studies in pecan:studies on zinc,nitrogen,and seasonal fluctuation of carbohydrate and nutrients[D]. Athens:University of Georgia, 2000.
[16]Acevedo-Barrera A A,Sánchez E,Yáez-Muoz R M,et al. Role of the zinc nutritional status on main physiological bioindicators of the pecan tree[J]. Agricultural Sciences,2017,8(12):1327-1336.
[17]Hu H,Sparks D. Zinc deficiency inhibits reproductive development in ‘Stuart’ pecan[J]. HortScience,1990,25(11):1392-1396.
[18]Lane R,Perkins H F,Johnstone J F E. Studies on the relationship of calcium,zinc,and pH in pecan production[C]//Proc SE Pecan Growers Assoc, 1965,58:21-24.
[19]Núez-Moreno H. Nutritional studies on pecans[Carya illinoinensis (Wangenh.) C. Koch]growing in irrigated alkaline soils[D]. Tucson:University of Arizona, 2016.
[20]OBarr R D,McBride J M,Hanson K. Pecan leaf sampling reveals shortages of fertilizer nutrients[J]. Louisiana Agriculture,1978,21:6-7.
[21]Smith M W,Rohla C T,Goff W D. Pecan leaf elemental sufficiency ranges and fertilizer recommendations[J]. HortTechnology,2012,22(5):594-599.
[22]Sparks D. Zinc nutrition and the pecan:a review[J]. Pecan South,1976,3:304-334.
[23]Beverly R B,Worley R E. Preliminary DRIS diagnostic norms for pecan[J]. HortScience,1992,27(3):271.
[24]Medina-Morales M C. Normas DRIS preliminares para nogal pecanero[J]. Terra Latinoamericana,2004,22(4):445-450.
[25]Pond A P,Walworth J L,Kilby M W,et al. Leaf nutrient levels for pecans[J]. HortScience,2006,41(5):1339-1341.
[26]Wood B W. Correction of zinc deficiency in pecan by soil banding[J]. HortScience,2007,42(7):1554-1558.
[27]Wells M L. Nutritional,environmental,and cultural disorders of pecan[M]// Southeastern Pecan Growers handbook. Tifton:University of Georgia,2007:193-201.
[28]Sparks D. Nutrient concentrations of pecan leaves associated with deficiency symptoms and normal growth[J]. HortScience,1978,13:256-257.
[29]Payne J A,Sparks D. Effect of broadcast and band application on zinc uptake by pecan trees[J]. Pecan South,1982,9:35-37.
[30]Sparks D. Pecan nutrition:a review[C]//Proc SE Pecan Growers Assoc. 1989,82:101-122.
[31]Kim T,Mills H A,Wetzstein H Y. Studies on the effect of zinc supply on growth and nutrient uptake in pecan[J]. Journal of Plant Nutrition,2002,25(9):1987-2000.
[32]Núez-Moreno H,Walworth J L,Pond A P,et al. Soil zinc fertilization of ‘Wichita’ pecan trees growing under alkaline soil conditions[J]. HortScience,2009,44(6):1736-1740.
[33]Alben A O,Hammer H E. The effect of pecan rosette from applications of zinc sulfate,manure,sulfur on heavy textured alkaline soils[J]. Proc Amer Soc Hort Sci,1944,45:27-32.
[34]Walworth J L,Pond A P,Sower G J,et al. Fall-applied foliar zinc for pecans[J]. HortScience,2006,41(1):275-276.
[35]Smith M W,Storey J B,Westfall P N. The influence of two methods of foliar application of zinc and adjuvant solutions on leaflet zinc concentration of pecan trees[J]. HortScience,1979,14:718-719.
[36]Herrera E A. Pecan growing in the western United States[J]. HortTechnology,1995,5(3):200-201.
[37]Alvarez J M,Rico M I,Obrador A. Leachability and distribution of zinc applied to an acid soil as controlled-release zinc chelates[J]. Communications in Soil Science and Plant Analysis,1997,28(17/18):1579-1590.
[38]Naik S K,Das D K. Evaluation of various zinc extractants in lowland rice soil under the influence of zinc sulfate and chelated zinc[J]. Communications in Soil Science and Plant Analysis,2010,41(1):122-134.
[39]Gangloff W J,Westfall D G,Peterson G A,et al. Mobility of organic and inorganic zinc fertilizers in soils[J]. Communications in Soil Science and Plant Analysis,2006,37(1/2):199-209.
[40]Swietlik D. Zinc nutrition in horticultural crops[M]. Oxford:John Wiley & Sons,2010.
[41]Wood B W,Payne J A. Comparison of ZnO and ZnSO4 for correcting severe foliar zinc deficiency in pecan[J]. HortScience,1997,32(1):53-56.
[42]Worley R E,Carter R L,Harmon S A. Effect of zinc sources and methods of application on yield and leaf mineral concentration of pecan,Carya illinoensis, Koch[J]. J Amer Soc Hort Sci,1972,97(3):364.
[43]Wadsworth G L. Absorption and translocation of zinc in pecan trees[Carya illinoensis (Wang.) K. Koch][D]. College Station:Texas A&M University,1970.
[44]Ojeda-Barrios D,Perea-Portillo E,Hernández-Rodríguez O,et al. Foliar fertilization with zinc in pecan trees[J]. HortScience,2014,49(5):562-566.
[45]Grauke L J,Storey J B,Emino E R,et al. The influence of leaf surface,leaf age,and humidity on the foliar absorption of zinc from 2 zinc sources by pecan[J]. HortScience,1982,17:474.
[46]Walworth J L,White S A,Comeau M J,et al. Soil-applied ZnEDTA:vegetative growth,nut production,and nutrient acquisition of immature pecan trees grown in an alkaline,calcareous soil[J]. HortScience,2017,52(2):301-305.
[47]Worley R E,Littrell R H,Polles S G. Pressure trunk injection promising for pecan and other trees[J]. HortScience,1976,11:590-591.
[48]McCune J. Nitrogen and phosphorus response in pecan[D]. Tucson:The University of Arizona,2016.
[49]Worley R E,Litrell R H,Dutcher J D. A comparison of zinc injection and implantation of zinc capsules for correction of zinc deficiency in pecan trees[J]. J Arboric,1980,6:253-257.
[50]Sistrunk L A. An improved method of DRIS for determining the nutrient status of pecan [Carya illinoensis (Wang) K. Koch] with foliar diagnosis[D]. College Station:Texas A&M University,1982.
[51]Sadiq M. Solubility and speciation of zinc in calcareous soils[J]. Water,Air,and Soil Pollution,1991,57(1):411-421.
[52]Malstrom H L,Fenn L B. Uptake of zinc from calcareous soils by pecan (Carya illinoensis) trees[J]. HortScience,1981,16:414.
[53]Sharpe R R,Marx D H. Influence of soil pH and Pisolithus tinctorius ectomycorrhizae on growth and nutrient uptake of pecan seedlings[J]. HortScience,1986,21(6):1388-1390.
[54]Sale P. Principles of plant nutrition[J]. Soil Biology and Biochemistry,2003,35(8):1159-1160.
[55]Sherman J,Heerema R J,VanLeeuwen D,et al. Optimal manganese nutrition increases photosynthesis of immature pecan trees[J]. HortScience,2017,52(4):634-640.
[56]Smith M W,Cheary B S. Response of pecan to annual soil band applications of phosphorus and potassium[J]. HortScience,2013,48(11):1411-1415.
[57]Sparks D. Growth and nutritional status of pecan in response of phosphorus[J]. J Am Soc Hort Sci,1988,113(6):850-859.
[58]Wells M L. Pecan tree productivity,fruit quality,and nutrient element status using clover and poultry litter as alternative nitrogen fertilizer sources[J]. HortScience,2012,47(7):927-931.
[59]Ozkutlu F,Torun B,Cakmak I. Effect of zinc humate on growth of soybean and wheat in zinc-deficient calcareous soil[J]. Communications in Soil Science and Plant Analysis,2006,37(15/16/17/18/19/20):2769-2778.
[60]Storey J B,Smith M,Westfall P N. Zinc nitrate opens new frontiers of rosette control[J]. The Pecan Quaterly,1974(8):9-10.

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备注/Memo

备注/Memo:
收稿日期:2021-04-09
基金项目:江苏省林业科技创新与推广项目[编号:LYKJ(2020)25、XYLYKJ(2020)]。
作者简介:朱海军(1981—),男,山东临朐人,博士,副研究员,主要从事薄壳山核桃等木本油料育种与培育研究,E-mail:zhuhj81_@126.com;共同第一作者:孙欣欣(1983—),女,山东临沂人,博士,讲师,主要从事城市、风景园林规划设计研究,E-mail:sunxinxinao@qq.com。
更新日期/Last Update: 2021-12-20