Scientia Agricultura Sinica ›› 2020, Vol. 53 ›› Issue (3): 551-562.doi: 10.3864/j.issn.0578-1752.2020.03.008

• PLANT PROTECTION • Previous Articles     Next Articles

The Occurrence Trends of Dominant Species of Potato Viruses and Thrips in Yunnan Province

DU Xia1,2,3,WU Kuo3,LIU Xia1,ZHANG LiZhen3,SU XiaoXia3,ZHANG HongRui1,ZHANG ZhongKai3,HU XianQi1,DONG JiaHong3,YANG YanLi1(),GAO YuLin2,4()   

  1. 1 College of Plant Protection, Yunnan Agricultural University, Kunming 650201
    2 State Key Laboratory for Biology of Plant Diseases and Insect Pests, Institute of Plant Protection, Chinese Academy of Agricultural Sciences, Beijing 100193
    3 Biotechnology and Germplasm Resources Institute, Yunnan Academy of Agricultural Sciences, Kunming 650205
    4 National Center of Excellence for Tuber and Root Crop Research, Chinese Academy of Agricultural Sciences, Beijing 100081
  • Received:2019-09-06 Accepted:2019-09-25 Online:2020-02-01 Published:2020-02-13
  • Contact: YanLi YANG,YuLin GAO E-mail:843151872@qq.com;gaoyulin@caas.cn

RichHTML

33

PDF

1675

Abstract:

【Objective】The objective of this study is to identify the dominant species of potato and changes of potato new virus in Yunnan Province, provide early warning and monitoring for the production of potato seedling, and to provide a basis for preventing the outbreak of new viral diseases.【Method】Using random five-point sampling method, a total of 510 leaves of local public potato varieties were collected from different fields in the spring and winter cropping areas of Yunnan. The viruses were detected by double antibody sandwich enzyme linked immunosorbent assay (DAS-ELISA) and indirect enzyme linked immunosorbent assay (I-ELISA). The same method was used to collect thrips from flowers and leaves of the local public potato varieties from spring and winter potato cropping areas in Yunnan. The samples were put into the collection tank and brought back to the laboratory. A total of 8 953 thrips were collected and made slide specimen. The species of thrips were identified by the morphological characteristics based on Oz thrips (http://www.ozthrips.org/) and key list of Thrips genus in China.【Result】A total of 6 common and 2 emerging viruses were detected from 510 potato samples. The dominant potato virus was Potato virus S (PVS), with an incidence rate of 63.53%, followed by Potato virus X (PVX) and Potato leafroll virus (PLRV). The two emerging potato viruses Tomato spotted wilt virus (TSWV) and Tomato zonate spot virus (TZSV) were detected, with incidence rates of 5.10% and 15.10%, respectively. A total of 3 families, 5 genera and 13 species of thrips were identified in this survey. They were Thrips flavidulus, T. flavus, T. palmi, T. tabaci, T. hawaiiensis, T. coloratus, T. obscuripes, T. alliorum, Frankliniella occidentalis, F. intonsa, Taeniothrips major of Thripidae, Haplothrips sp. of Phlaeothripidae, and Aeolothrips sp. of Aeolothripidae. Among the 8 detected viruses, only TSWV and TZSV could be transmitted by thrips. F. occidentalis was the dominant species in the potential virus-transmission thrips population, accounting for 69.47% of the total potential virus-transmission thrips population. 【Conclusion】At present, PVS is the dominant potato virus in Yunnan, and the incidence rate of two emerging viruses infecting potato is also increasing. F. occidentalis is the dominant species in the potential virus-transmission thrips population.

Key words: potato, viral disease, thrips, Tomato spotted wilt virus (TSWV), Tomato zonate spotted virus (TZSV)

Table 1

Sample collection information"

区域
Region		 州(市)
Prefecture (City)		 县(市)
County (City)		 马铃薯品种
Variety of potato		 样品个数
Number of samples		 备注
Note
春作区Spring cropping area 大理州
Dali		 鹤庆县Heqing 合作88 Cooperation 88 1 种薯Potato seed
洱源县Eryuan 合作88 Cooperation 88、丽薯6号Lishu 6、丽薯7号Lishu 7、凤薯95-11 Fengshu 95-11、TK96、PO3 55 种薯Potato seed
剑川县Jianchuan 合作88 Cooperation 88、丽薯6号Lishu 6、剑川红Jianchuanhong 43 种薯Potato seed
大理市Dali 丽薯6号Lishu 6、青薯9号Qingshu 9 12 商品薯Commodity potato
弥渡县Midu 丽薯6号Lishu 6 12 商品薯Commodity potato
南涧县Nanjian 丽薯6号Lishu 6 12 商品薯Commodity potato
迪庆州Diqing 香格里拉Shangri-La 合作88 Cooperation 88、丽薯6号Lishu 6、丽薯7号Lishu 7、云薯103 Yunshu 103、云薯505 Yunshu 505、宣薯2号Xuanshu 2、青薯7号Qingshu 7、青薯9号Qingshu 9、S11-2616、会薯18 Huishu 18 64 种薯Potato seed
曲靖市Qujing 会泽县**Huize 合作88 Cooperation 88、会-2 Hui 2、昊绿5号Haolv 5、会13 Hui 13、P96-9、AM-52、会薯8号Huishu 8、费乌瑞它Favorita、YA-2 16 种薯Potato seed
罗平县Luoping 合作88 Cooperation 88、丽薯6号Lishu 6、宣薯2号Xuanshu 2、米拉**Mira、马牙棵**Mayake 78 商品薯Commodity potato
陆良县**Luliang 合作88 Cooperation 88 3 商品薯Commodity potato
宣威市Xuanwei 宣薯2号Xuanshu 2、宣薯5号Xuanshu 5 18 种薯Potato seed
昭通市Zhaotong 昭阳区Zhaoyang 丽薯6号Lishu 6、宣薯2号Xuanshu 2、云薯505 Yunshu 505、昊绿4号**Haolv 4、昊绿5号**Haolv 5、昊绿6号**Haolv 6、昊绿7号**Haolv 7、合作23** Cooperation 23、威芋5号Weiyu 5、N1**、N2**、N3** 54 种薯Potato seed
鲁甸县Ludian 云薯505 Yunshu 505、威芋5号Weiyu 5 20 种薯Potato seed
丽江市Lijiang 玉龙县Yulong 丽薯6号Lishu 6、丽薯7号Lishu 7 38 种薯Potato seed
昆明市Kunming 寻甸县Xundian 宣薯2号Xuanshu 2、青薯9号Qingshu 9 18 商品薯Commodity potato
冬作区Winter cropping area 临沧市Lincang 云县Yunxian 合作88 Cooperation 88、丽薯6号Lishu 6 24 商品薯Commodity potato
双江县Shuangjiang 合作88 Cooperation 88、丽薯6号Lishu 6 15 商品薯Commodity potato
大理州Dali 宾川县Binchuan 丽薯6号Lishu 6、凤薯95-11 Fengshu 95-11、凤薯5号Fengshu 5、华薯1号**Huashu 1、凤薯6号** Fengshu 6 9 商品薯Commodity potato
红河州Honghe 开远市Kaiyuan 丽薯6号 Lishu 6 18 商品薯Commodity potato
石屏县*Shiping 丽薯6号 Lishu 6 3 商品薯Commodity potato
德宏州Dehong 芒市*Mangshi 丽薯6号 Lishu 6 3 商品薯Commodity potato
盈江县*Yingjiang 合作88 Cooperation 88 3 商品薯Commodity potato
合计Total 519

Table 2

Detection of potato viruses in different regions of Yunnan"

州(市)
Prefecture (City)		 县(市)
County (City)		 样品总数
Total number of samples		 TSWV
阳性数目
Positive of TSWV		 TZSV
阳性数目
Positive of TZSV		 PVA
阳性数目Positive of PVA		 PVY
阳性数目Positive of PVY		 PVM
阳性数目Positive of PVM		 PVX
阳性数目Positive of PVX		 PVS
阳性数目Positive of PVS		 PLRV
阳性数目Positive of PLRV
大理州Dali 宾川县Binchuan 9 0 2 1 3 0 0 2 0
大理市Dali 12 0 0 0 0 0 0 0 0
弥渡县Midu 12 3 0 0 0 3 3 12 0
南涧县Nanjian 12 0 0 0 0 6 9 12 3
洱源县Eryuan 55 3 23 17 12 18 28 24 26
剑川县Jianchuan 43 17 23 13 0 0 34 22 18
鹤庆县Heqing 1 0 0 1 0 1 0 1 0
临沧市Lincang 云县Yunxian 24 0 0 0 0 12 0 21 3
双江县Shuangjiang 15 0 0 6 0 0 0 12 3
红河州Honghe 开远市Kaiyuan 18 0 0 6 0 0 0 12 9
迪庆州Diqing 香格里拉Shangri-La 64 0 0 15 12 13 16 44 29
曲靖市Qujing 罗平县Luoping 78 0 0 6 17 0 1 51 7
陆良市Luliang 3 0 1 1 0 0 0 3 0
会泽县Huize 16 0 0 1 6 0 2 9 0
宣威市Xuanwei 18 0 6 6 0 3 0 15 3
昆明市Kunming 寻甸县Xundian 18 0 0 9 0 9 9 18 6
昭通市Zhaotong 昭阳区Zhaoyang 54 0 5 3 5 0 7 26 3
鲁甸县Ludian 20 0 0 3 0 0 3 15 3
丽江市Lijiang 玉龙县Yulong 38 3 17 9 0 12 30 25 18
总计Total 510 26 77 97 55 77 142 324 131

Table 3

Distribution of potato thrips in different regions of Yunnan"

州(市)
Prefecture
(City)		 县(市)
County (City)		 西花蓟马
F. occidentalis		 花蓟马
F. intonsa		 棕榈蓟马
T. palmi		 烟蓟马
T. tabaci		 八节黄蓟马
T. flavidulus		 黄蓟马
T. flavus		 黄胸蓟马
T. hawaiiensis		 色蓟马
T. coloratus		 暗足蓟马
T. obscuripes		 葱韭蓟马
T. alliorum		 大带蓟马
Taeniothrips major		 Haplothrips sp. Aeolothrips sp.
大理州
Dali		 宾川县Binchuan 7 1 0 0 2 0 0 0 0 0 0 0 0
大理市Dali 166 56 6 0 174 4 3 0 0 0 0 0 0
弥渡县Midu 41 9 0 0 75 5 0 0 0 0 0 0 0
南涧县Nanjian 2 2 0 0 104 69 2 0 0 0 0 0 0
洱源县Eryuan 107 1 18 1 359 129 7 0 0 0 0 3 0
剑川县Jianchuan 8 0 10 0 892 200 14 0 0 0 0 1 0
鹤庆县Heqing 0 0 1 0 127 0 0 0 0 0 0 0 0
临沧市
Lincang		 云县Yunxian 2 22 1 0 17 93 0 0 0 0 0 0 0
双江县Shuangjiang 7 19 0 0 0 6 17 0 0 0 0 0 0
德宏州
Dehong		 芒市Mangshi 2 3 2 0 4 5 0 0 0 0 0 0 0
盈江县Yingjiang 1 39 0 0 2 2 0 0 0 0 0 0 0
红河州
Honghe		 开远市Kaiyuan 118 65 4 0 92 163 723 0 103 0 1 2 0
石屏县Shiping 25 2 0 0 0 9 3 0 0 0 0 0 0
迪庆州
Diqing		 香格里拉Shangri-La 9 45 2 6 64 28 11 1 0 0 129 0 1
曲靖市
Qujing		 罗平县Luoping 12 2 16 1 22 145 4 0 0 1 0 10 0
宣威市Xuanwei 0 0 2 0 805 81 0 4 0 0 0 13 2
昆明市
Kunming		 寻甸县Xundian 66 0 2 0 622 157 5 15 119 0 0 0 1
昭通市
Zhaotong		 昭阳区Zhaoyang 219 2 39 2 210 30 2 3 0 0 0 3 0
鲁甸县Ludian 25 0 3 0 881 424 2 0 0 0 0 1 0
丽江市
Lijiang		 玉龙县Yulong 75 0 8 0 19 87 2 0 0 0 0 0 0
总计Total 892 268 114 10 4471 1637 795 23 222 1 130 33 4

Table 4

Thrips species on potato in Yunnan Province"

科 Family 属 Genus 种 Species
蓟马科 Thripidae 蓟马属 Thrips
八节黄蓟马T. flavidulus
黄蓟马T. flavus
*棕榈蓟马T. palmi
*烟蓟马T. tabaci
黄胸蓟马T. hawaiiensis
色蓟马T. coloratus
暗足蓟马T. obscuripes
葱韭蓟马T. alliorum
花蓟马属Frankliniella
*西花蓟马F. occidentalis
*花蓟马F. intonsa
带蓟马属Taeniothrips
大带蓟马Ta. major
管蓟马科Phlaeothripidae 简管蓟马属Haplothrips Haplothrips sp.
纹蓟马科Aeolothripidae 纹蓟马属Aeolothrips Aeolothrips sp.

Table 5

The number of vector thrips in hundred plants on potato from different regions"

州(市)
Prefecture (City)		 县(市)
County (City)		 西花蓟马(头/百株)
F. occidentalis		 花蓟马(头/百株)
F. intonsa		 棕榈蓟马(头/百株)
T. palmi		 烟蓟马(头/百株)
T. tabaci
大理州Dali 宾川县Binchuan 9 1 0 0
弥渡县Midu 41 9 0 0
洱源县Eryuan 29 1 5 1
剑川县Jianchuan 3 0 4 0
曲靖市Qujing 宣威市Xuanwei 0 0 1 0
昭通市Zhaotong 昭阳区Zhaoyang 84 1 15 1
丽江市Lijiang 玉龙县Yulong 30 0 3 0
[1] HE C, ZHANG W, HU X, SINGH M, XIONG X Y, NIE X Z . Molecular characterization of a Chinese isolate of potato virus A (PVA) and evidence of a genome recombination event between PVA variants at the 3′-proximal end of the genome. Archives of Virology, 2014,159(9):2457-2462.
[2] 徐进, 朱杰华, 杨艳丽, 汤浩, 吕和平, 樊明寿, 石瑛, 董道峰, 王贵江, 王万兴, 熊兴耀, 高玉林 . 中国马铃薯病虫害发生情况与农药使用现状. 中国农业科学, 2019,52(16):2800-2808.
XU J, ZHU J H, YANG Y L, TANG H, LÜ H P, FAN M S, SHI Y, DONG D F, WANG G J, WANG W X, XIONG X Y, GAO Y L . Status of major diseases and insect pests of potato and pesticide usage in China. Scientia Agricultura Sinica, 2019,52(16):2800-2808. (in Chinese)
[3] 钟婷婷 . 马铃薯病毒病RT-PCR检测体系的建立及病毒病在四川省的种类与分布[D]. 雅安: 四川农业大学, 2007.
ZHONG T T . The establishment of RT-PCR system and varieties and distribution of potato viruses in Sichuan[D]. Yaan: Sichuan Agricultural University, 2007. ( in Chinese)
[4] 杨小琴, 张艳艳, 张媛媛 . 马铃薯病毒检测技术研究进展. 现代农业科技, 2014(24):148-149.
YANG X Q, ZHANG Y Y, ZHANG Y Y . Research progress on detection technology of potato virus. Modern Agricultural Science and Technology, 2014(24):148-149. (in Chinese)
[5] 马雪青, 王永刚, 周贤婧, 赵虎彪, 李昆鹏, 马建忠 . 马铃薯病毒研究新进展. 食品工业科技, 2010,31(10):429-434.
MA X Q, WANG Y G, ZHOU X J, ZHAO H B, LI K P, MA J Z . Research advances of potato virus. Science and Technology of Food Industry, 2010,31(10):429-434. (in Chinese)
[6] 吴兴泉, 时妍, 杨庆东 . 我国马铃薯病毒的种类及脱毒种薯生产过程中病毒的检测. 中国马铃薯, 2011,25(6):363-366.
WU X Q, SHI Y, YANG Q D . Potato viruses and their detection in virus-free seed potato production in China. Chinese Potato Journal, 2011,25(6):363-366. (in Chinese)
[7] WILSON C R . Resistance to infection and translocation of Tomato spotted wilt virus in potatoes. Plant Pathology, 2001,50(3):402-410.
[8] SALVALAGGIO A E, LOPEZ LAMBERTINI P M, CENDOYA G, HUARTE M A . Temporal and spatial dynamics of Tomato spotted wilt virus and its vector in a potato crop in Argentina. Annals of Applied Biology, 2017,171(1):5-14.
[9] POURRAHIM R, FARZADFAR S, MOINI A A, SHAHRAEEN N, AHOONMANESH A . First report of Tomato spotted wilt virus on potatoes in Iran. Plant Disease, 2001,85(4):442.
[10] HORVATH J, GÁBORJÁNYI R, KAZINCZI G, TAKACS P A. Natural occurrence of Tomato spotted wilt Tospovirus (TSWV) on potato in Hungary. Növénytermelés, 2001,50(5):545-548.
[11] ABAD J A, MOYER J W, KENNEDY G G, HOLMES G A, CUBETA M A . Tomato spotted wilt virus on potato in eastern North Carolina. American Journal of Potato Research, 2005,82(3):255-261.
[12] 张仲凯, 丁铭, 方琦, 张丽珍, 李婷婷, 彭潞波, 苏晓霞, 李展 . 番茄斑萎病毒属(Tospovirus)病毒在云南的发生分布研究初报. 西南农业学报, 2004,17(增刊):163-168.
ZHANG Z K, DING M, FANG Q, ZHANG L Z, LI T T, PENG L B, SU X X, LI Z . The preliminary study of the occurrence and distribution of Tospovirus in Yunnan. Southwest China Journal of Agricultural Sciences, 2004,17(Suppl.):163-168. (in Chinese)
[13] CROSSLIN J M, MALLIK I, GUDMESTAD N C . First report of Tomato spotted wilt virus causing potato tuber necrosis in Texas. Plant Disease, 2009,93(8):845.
[14] AL-SHAHWAN I M, ABDALLA O A, AL-SALEH M A . Potato viruses in central Saudi Arabia. Journal of King Saud University Agricultural Sciences, 1998,10(1):45-53.
[15] AL-SHAHWAN I M, ABDALLA O A, AL-SALEH M A . Viruses in the northern potato-producing regions of Saudi Arabia. Plant Pathology, 1997,46(1):91-94.
[16] CHATZIVASSILIOU E K, PETERS D, LOLAS P . Occurrence of Tomato spotted wilt virus in Stevia rebaudiana and Solanum tuberosum in Northern Greece. Plant Disease, 2007,91(9):1205.
[17] FAROOQ A, AKANDA A M . Symptoms and prevalence of Tomato spotted wilt virus (TSWV) infection in Bangladesh. International Journal of Sustainable Crop Production, 2007,2(5):51-58.
[18] BULAJIĆ A R, STANKOVIĆ I M, VUČUROVIĆ A B, RISTIĆ D T, MILOJEVIĆ K N, IVANOVIĆ M S, KRSTIĆ B B. Tomato spotted wilt virus - Potato cultivar susceptibility and tuber transmission. American Journal of Potato Research, 2014,91(2):186-194.
[19] SIVPARSAD B J, GUBBA A . Isolation and molecular characterization of Tomato spotted wilt virus (TSWV) isolates occurring in South Africa. African Journal of Agricultural Research, 2008,3(6):428-434.
[20] 丁铭, 张丽珍, 方琦, 李婷婷, 苏晓霞, 李展, 张仲凯 . 侵染马铃薯的一个Tospovirus混合分离物的鉴定、纯化及多抗血清制备. 西南农业学报, 2004,17(增刊):160-162.
DING M, ZHANG L Z, FANG Q, LI T T, SU X X, LI Z, ZHANG Z K . Identification, purification and antiserum preparation of Tospovirus isolate affecting potato. Southwest China Journal of Agricultural Sciences, 2004,17(Suppl.):160-162. (in Chinese)
[21] BRITTLEBANK C C . Tomato diseases. Journal of the Department of Agriculture in Victoria, 1919,17:1348-1352.
[22] PARRELLA G, GOGNALONS P, GEBRE-SELASSIÉ K, VOVLAS C, MARCHOUX G . An update of the host range of Tomato spotted wilt virus. Journal of Plant Pathology, 2003,85(4):227-264.
[23] 张仲凯, 丁铭, 方琦, 张丽珍, 彭潞波, 李展, 李婷婷 . 云南马铃薯病毒种类及脱病毒种苗筛选技术体系. 云南农业科技, 2003 ( 增刊1):121-131.
ZHANG Z K, DING M, FANG Q, ZHANG L Z, PENG L B, LI Z, LI T T . Potato virus species and virus-free seedling screening technology system in Yunnan. Yunnan Agricultural Science and Technology, 2003(Suppl. 1):121-131. (in Chinese)
[24] HUANG C J, LIU Y, YU H Q, LI B L . Occurrence of Tomato zonate spot virus on potato in China. Plant Disease, 2015,99(5):733.
[25] ZHANG H R, XIE Y H, LI Z Y . Identification key to species of Thrips genus from China (Thysanoptera, Thripidae), with seven new records. Zootaxa, 2011,2810:37-46.
[26] JONES D R . Plant viruses transmitted by thrips. European Journal of Plant Pathology, 2005,113(2):119-157.
[27] 吴兴泉, 张慧聪, 时妍, 孙强, 陈士华 . 我国部分马铃薯产区主要病毒病发生情况调查. 河南农业科学, 2013,42(7):84-87.
WU X Q, ZHANG H C, SHI Y, SUN Q, CHEN S H . Survey of important potato viruses in some potato planting areas in China. Journal of Henan Agricultural Sciences, 2013,42(7):84-87. (in Chinese)
[28] 范国权, 白艳菊, 高艳玲, 张威, 张抒, 申宇, 李学湛 . 我国马铃薯主产区病毒病发生情况调查. 黑龙江农业科学, 2014(3):68-72, 87.
FAN G Q, BAI Y J, GAO Y L, ZHANG W, ZHANG S, SHEN Y, LI X Z . Investigation on virus disease of the main potato producing areas in China. Heilongjiang Agricultural Sciences, 2014(3):68-72, 87. (in Chinese)
[29] DONG J H, CHENG X F, YIN Y Y, FANG Q, DING M, LI T T, ZHANG L Z, SU X X, MCBEATH J H, ZHANG Z K . Characterization of tomato zonate spot virus, a new tospovirus in China. Archives of Virology, 2008,153(5):855-864.
[30] 卢训, 丁铭, 方琦, 方敦煌, 秦西云, 张仲凯 . 侵染云南烟草的番茄环纹斑点病毒N基因的分子变异分析. 植物病理学报, 2012,42(2):195-201.
LU X, DING M, FANG Q, FANG D H, QIN X Y, ZHANG Z K . Molecular variation of natural populations of Tomato zonate spot virus infecting flue-cured tobacco in Yunnan. Acta Phytopathologica Sinica, 2012,42(2):195-201. (in Chinese)
[31] 李秋芳, 智龙, 李穆, 徐烨, 黄亚宁, 刘雅婷 . 云南鸢尾上发现番茄环纹斑点病毒. 云南农业大学学报(自然科学), 2014,29(2):167-172.
LI Q F, ZHI L, LI M, XU Y, HUANG Y N, LIU Y T . Tomato zonate spot virus as a pathogen found in Iris tectorum. Journal of Yunnan Agricultural University (Natural Science), 2014,29(2):167-172. (in Chinese)
[32] 张廷金 . 昆明市烟草病毒鉴定及花叶病的绿色防控技术研究[D]. 昆明: 云南大学, 2012.
ZHANG T J . Identification of viruses infecting tobacco in Kunming and green prevention and control techniques of Tobacco mosaic virus[D]. Kunming: Yunnan University, 2012. ( in Chinese)
[33] 尚卫娜 . 番茄斑萎病毒和番茄环纹斑点病毒细胞病理学及其运动蛋白的研究[D]. 杭州: 浙江大学, 2012.
SHANG W N . Study of cytopathology of Tomato spotted wilt virus and Tomato zonate spot virus and functions of MP[D]. Hangzhou: Zhejiang University, 2012. ( in Chinese)
[34] 张友军, 吴青君, 徐宝云, 朱国仁 . 危险性外来入侵生物——西花蓟马在北京发生危害. 植物保护, 2003,29(4):58-59.
ZHANG Y J, WU Q J, XU B Y, ZHU G R . Dangerous alien invasive organism: Western flower thrips in Beijing. Plant Protection, 2003,29(4):58-59. (in Chinese)
[35] 周卫川, 林阳武, 翁瑞泉, 吴宇芬, 王念武 . 西花蓟马在中国的地理分布和年发生代数预测. 应用昆虫学报, 2006,43(6):798-801.
ZHOU W C, LIN Y W, WENG R Q, WU Y F, WANG N W . Speculation on geographical distribution and generations of Frankliniella occidentalis in China. Chinese Bulletin of Entomology, 2006,43(6):798-801. (in Chinese)
[36] ABE H, TOMITAKA Y, SHIMODA T, SEO S, SAKURAI T, KUGIMIYA S, TSUDA S, KOBAYASHI M . Antagonistic plant defense system regulated by phytohormones assists interactions among vector insect, thrips and a tospovirus. Plant and Cell Physiology, 2012,53(1):204-212.
[37] 郑雪, 陈勇, 郑立敏, 郑宽瑜, 赵立华, 陈永对, 张洁 . 番茄环纹斑点病毒侵染辣椒挥发物成分分析及对西花蓟马行为反应影响. 山东农业科学, 2018,50(11):111-115.
ZHENG X, CHEN Y, ZHENG L M, ZHENG K Y, ZHAO L H, CHEN Y D, ZHANG J . Analysis of volatile compounds of pepper plants infected by Tomato zonate spot virus and their effect on Frankliniella occidentalis. Shandong Agricultural Sciences, 2018,50(11):111-115. (in Chinese)
[1] PENG Xue,GAO YueXia,ZHANG LinXuan,GAO ZhiQiang,REN YaMei. Effects of High-Energy Electron Beam Irradiation on Potato Storage Quality and Bud Eye Cell Ultrastructure [J]. Scientia Agricultura Sinica, 2022, 55(7): 1423-1432.
[2] CUI Peng,ZHAO YiRen,YAO ZhiPeng,PANG LinJiang,LU GuoQuan. Starch Physicochemical Properties and Expression Levels of Anabolism Key Genes in Sweetpotato Under Low Temperature [J]. Scientia Agricultura Sinica, 2022, 55(19): 3831-3840.
[3] XiaoChuan LI,ChaoHai WANG,Ping ZHOU,Wei MA,Rui WU,ZhiHao SONG,Yan MEI. Deciphering of the Genetic Diversity After Field Late Blight Resistance Evaluation of Potato Breeds [J]. Scientia Agricultura Sinica, 2022, 55(18): 3484-3500.
[4] ZHANG XiaoPing,SA ShiJuan,WU HanYu,QIAO LiYuan,ZHENG Rui,YAO XinLing. Leaf Stomatal Close and Opening Orchestrate Rhythmically with Cell Wall Pectin Biosynthesis and Degradation [J]. Scientia Agricultura Sinica, 2022, 55(17): 3278-3288.
[5] LI ZhengGang,TANG YaFei,SHE XiaoMan,YU Lin,LAN GuoBing,HE ZiFu. Molecular Characteristics and Pathogenicity Analysis of Youcai Mosaic Virus Guangdong Isolate Infecting Radish [J]. Scientia Agricultura Sinica, 2022, 55(14): 2752-2761.
[6] FAN WenJing,LIU Ming,ZHAO Peng,ZHANG QiangQiang,WU DeXiang,GUO PengYu,ZHU XiaoYa,JIN Rong,ZHANG AiJun,TANG ZhongHou. Screening of Sweetpotato Varieties Tolerant to Low Nitrogen at Seedling Stage and Evaluation of Different Nitrogen Efficiencies [J]. Scientia Agricultura Sinica, 2022, 55(10): 1891-1902.
[7] YuXin LIANG,JianXiang WU,XiaoYu LI,ChunYu ZHANG,JiChao HOU,XuePing ZHOU,YongZhi WANG. Mapping of Epitopes and Establishment of Rapid DAS-ELISA for Potato Virus Y Coat Protein [J]. Scientia Agricultura Sinica, 2021, 54(6): 1154-1162.
[8] JianZhao TANG,Jing WANG,DengPan XIAO,XueBiao PAN. Research Progress and Development Prospect of Potato Growth Model [J]. Scientia Agricultura Sinica, 2021, 54(5): 921-932.
[9] LI KaiFeng,YIN YuHe,WANG Qiong,LIN TuanRong,GUO HuaChun. Correlation Analysis of Volatile Flavor Components and Metabolites Among Potato Varieties [J]. Scientia Agricultura Sinica, 2021, 54(4): 792-803.
[10] WANG Xin,LI Qiang,CAO QingHe,MA DaiFu. Current Status and Future Prospective of Sweetpotato Production and Seed Industry in China [J]. Scientia Agricultura Sinica, 2021, 54(3): 483-492.
[11] ZHANG MengDi,YAN JunJie,GAO YuLin. The Adaptive Analysis of Phthorimaea operculella to Different Potato Tuber Varieties [J]. Scientia Agricultura Sinica, 2021, 54(3): 536-546.
[12] LI Xiang,ZHANG XiaoJiao,XIAO Chun,DONG WenXia. Electroantennogram Responses of Phthorimaea operculella of Different Sexes and Mating States to Potato Volatiles [J]. Scientia Agricultura Sinica, 2021, 54(3): 547-555.
[13] CHEN Yang,ZHAO HongYi,YAN JunJie,HUANG Jian,GAO YuLin. Chemical Synthesis View on Sex Pheromones of Potato Tuberworm (Phthorimaea operculella) [J]. Scientia Agricultura Sinica, 2021, 54(3): 556-572.
[14] XIONG Yan,HAN Rui,HU ChunHua,WANG Jing,XIAO Chun. Influences of Chemical and Physical Stimuli on Oviposition Behavior of Phthorimaea operculella [J]. Scientia Agricultura Sinica, 2021, 54(3): 573-582.
[15] ZHAO Shan,ZHONG LingLi,QIN Lin,HUANG ShiQun,LI Xi,ZHENG XingGuo,LEI XinYu,LEI ShaoRong,GUO LingAn,FENG JunYan. Effects of Different Drying Methods on Functional Components and Antioxidant Activity in Sweet Potato Leaves [J]. Scientia Agricultura Sinica, 2021, 54(21): 4650-4663.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!
京ICP备09089781号-30
Copyright 2018 © Editorial office of Scientia Agricultura Sinica
Tel: 86-010-82106279    E-mail: zgnykx@mail.caas.net.cn
Supported by Beijing Magtech Co.Ltd