Analysis of Research Situation of Cereal Cyst Nematode Based on CiteSpace

doi:10.11924/j.issn.1000-6850.casb2024-0075

Abstract

Abstract:

Cereal cyst nematode (CCN) is a kind of plant parasitic nematode which seriously affects wheat yield. It is widely distributed in the main wheat producing areas of China and endangers food security. In order to understand the research and development status of grain cyst nematode, using the bibliometric analysis software CiteSpace, the literature in this field in CNKI and Web of Science databases from 1993 to 2022 is visually analyzed according to the country, institution, author and keywords. From 1993 to 2010, China was in the early stage of development in the field of CCN research, and the number of Chinese literature publications was lower than that of English. Since 2011, the research results on CCN in China have gradually increased, and the number of Chinese literature publications has sharply increased. The analysis of national cooperation networks and research heat maps shows that from 2016 to 2022, China’s research achievements in this field had continued to increase in the number of publications in international journals, and have made outstanding contributions to this field with the highest total number of publications. Through the study of subject power analysis, it is concluded that there is multi-party cooperation among researchers in various countries, but there is no stable core group of authors in the field of CCN research. The development trend and cluster analysis of keywords in this field indicate that the research frontier of CCN has developed from the occurrence, identification, harm and control in the past to the current direction of mining excellent resistance genes and developing efficient biocontrol agents. The molecular mechanism of interaction between CCN and host plants and soil microorganisms has become a research focus in this field. In the future, it is necessary to further explore the molecular mechanism of the interaction between Heterodera avenae and host plants and soil microorganisms, especially the signal transduction pathway of nematode chemotaxis, to find a commercial and efficient fungicide.

Key words: cereal cyst nematode, CiteSpace, Web of Science, CNKI, bibliometric analysis

LI Binni, WANG Pengfei, DONG Xiuli, LAI Beibei, ZHAO Mengli, XU Qiufang, QIU Wei. Analysis of Research Situation of Cereal Cyst Nematode Based on CiteSpace[J]. Chinese Agricultural Science Bulletin, 2024, 40(19): 154-164.

Figures/Tables 11

References 58

[1]	张传伟, 巩中军, 郭姝辰, 等. 近30年河南省小麦病虫草害发生演变特点分析[J]. 中国植保导刊, 2022, 42(3):29-38.
[2]	李红梅, 王暄, 彭德良. 小麦孢囊线虫病概况及江苏省的发生现状与防治对策[J]. 江苏农业科学, 2010(6):1-4.
[3]	GRECO N, D'ADDABBO T, BRANDONISIO A, et al. Damage to Italian crops caused by cyst-forming nematodes[J]. Journal of nematology, 1993, 25(4S):836.
[4]	JING B X, HE Q, WU H Y, et al. Seasonal and temperature effects on hatching of Heterodera avenae (Shandong population, China)[J]. Nematology, 2014, 16(10):1209-1217.
[5]	孔令安, 崔江宽, 彭焕, 等. 小麦对小麦孢囊线虫抗病性研究进展[J]. 植物病理学报, 2021, 51(4):487-495.
[6]	XU Z P, LI H, LIU Y, et al. First report of cyst nematode (Heterodera elachista) on Zea mays in Gansu Province, China[J]. Plant disease, 2020, 105(2):485.
[7]	侯金丽. 我国植物寄生线虫防治研究进展[J]. 现代农业科技, 2015(7):136.
[8]	梁连铭, 邹成钢, 张克勤. 微生物与线虫互作分子机制研究进展[J]. 中国科学:生命科学, 2019, 49(11):1508-1519.
[9]	STROM N, HU W, CHEN S, et al. Continuous monoculture shapes root and rhizosphere fungal communities of corn and soybean in soybean cyst nematode-infested soil[J]. Phytobiomes journal, 2019, 3(4):300-314.
[10]	CHEN C. CiteSpace II: Detecting and visualizing emerging trends and transient patterns in scientific literature[J]. Journal of the American society for information science and technology, 2006, 57(3):359-377.
[11]	侯耀钧, 陈启斌, 王朝旭, 等. 基于CiteSpace的国内外人工湿地研究动态与未来展望[J]. 环境工程技术学报, 2023, 13(4):1275-1286.
[12]	马龙龙, 杜灵通, 丹杨, 等. 基于CiteSpace的陆地生态系统碳水耦合研究现状及趋势[J]. 生态学报, 2020, 40(15):5441-5449.
[13]	严陶韬, 薛建辉. 中国生物多样性研究文献计量分析[J]. 生态学报, 2021, 41(19):7879-7892.
[14]	CHEN C, IBEKWE-SANJUAN F, HOU J. The structure and dynamics of cocitation clusters: A multiple-perspective cocitation analysis[J]. Journal of the American society for information science and technology, 2010, 61(7):1386-1409.
[15]	胡利勇. 基于普赖斯定律的图书情报领域高被引论文核心要素测评[J]. 图书馆研究, 2019, 46(4):113-117.
[16]	PAN X, YAN E, CUI M, et al. Examining the usage, citation, and diffusion patterns of bibliometric mapimg software: A comparative study of three tools[J]. Journal of informetrics, 2018, 12(2):481-493.
[17]	SHIBATA N, KAJIKAWA Y, TAKEDA Y, et al. Detecting emerging research fronts based on topological measures in citation networks of scientific publications[J]. Technovation, 2008, 28(11):758-775.
[18]	JIA G L, MA R G, HU Z H. Review of urban transportation network design problems based on CiteSpace[J]. Mathematical problems in engineering, 2019:1-22.
[19]	SABE M, PILLINGER T, KAISER S, et al. Half a century of research on antipsychotics and schizophrenia: A scientometric study of hotspots, nodes, bursts, and trends[J]. Neuroscience and biobehavioral reviews, 2022, 136:104608.
[20]	齐淑华, 彭德良, 张东升, 等. 禾谷孢囊线虫在我国的新寄主及新分布区初报[J]. 植物保护, 1994, 20(4):52.
[21]	李红梅, 王暄, 裴世安, 等. 江苏省小麦孢囊线虫病发生情况初步调查[J]. 植物保护, 2010, 36(6):172-175.
[22]	赵杰, 钮绪燕, 张管曲, 等. 陕西省中南部地区小麦禾谷孢囊线虫的发生与分布[J]. 西北农业学报, 2011, 20(6):181-185.
[23]	李秀花, 马娟, 陈书龙. 河北省小麦孢囊线虫病的发生与分布[J]. 植物保护, 2013, 39(1):162-165.
[24]	黄文坤, 叶文兴, 王高峰, 等. 宁夏地区禾谷孢囊线虫的发生与分布[J]. 华中农业大学学报, 2011, 30(1):74-77.
[25]	彭德良, 黄文坤, 孙建华, 等. 我国天津发现小麦禾谷孢囊线虫.植物线虫学研究(第四卷)[M]. 北京: 中国农业科学技术出版社, 2012:162-163.
[26]	汪涛, 戚仁德, 吴向辉, 等. 小麦孢囊线虫病传播扩散途径研究初报[J]. 植物保护, 2012, 38(1):98-100.
[27]	刘静, 吴海燕, 彭德良. 小麦孢囊线虫的发生,防治及控制策略的思考[J]. 安徽农业科学, 2010, 3:1629-1632.
[28]	叶文兴, 徐秉良, 彭德良, 等. 甘肃小麦禾谷孢囊线虫rDNA-ITS和28S rDNA-D2/D3区序列特征及ITS-RFLP分析[J]. 植物保护, 2010, 36(3):58-65.
[29]	姚珂, 郑经武, 黄文坤, 等. 植物寄生线虫效应蛋白调控寄主防卫反应分子机制研究进展[J]. 植物病理学报, 2020, 50(5):517-530.
[30]	杨耀权, 李飞腾, 李延鹏, 等. 基于CiteSpace的线虫生物防治研究现状分析[J]. 中国农学通报, 2023, 39(4):139-148. doi: 10.11924/j.issn.1000-6850.casb2022-0200
[31]	陈品三, 王明祖, 彭德良. 我国小麦禾谷孢囊线虫(Heterodera avenae Wollenweber)鉴定研究[J]. 植物病理学报, 1992, 22(4):339-343.
[32]	崔磊, 高秀, 王晓鸣, 等. 不同抗性小麦根与菲利普孢囊线虫(Heterodera filipjevi)互作的[J]. 作物学报, 2012, 38(6):1009-1017.
[33]	侯璐. 小麦抗孢囊线虫病基因发掘及分子定位研究进展[J]. 青海科技, 2018, 25(3):38-43.
[34]	张春龙, 肖炎农, 朱景全, 等. 小麦禾谷孢囊线虫病的发生规律与防治对策[J]. 中国植保导刊, 2013(7):21-23.
[35]	刘志勇. 小麦抗白粉病基因资源发掘与育种利用[A].//见:第十九届中国作物学会学术年会论文摘要集[C]. 武汉: 中国作物协会, 2020:62.
[36]	CHOPRA D, HASAN M S, MATERA C, et al. Plant parasitic cyst nematodes redirect host indole metabolism via NADPH oxidase-mediated ROS to promote infection[J]. New phytologist, 2021, 232(1):318-331.
[37]	韩尚明. 甘陕冀豫冬小麦孢囊线虫发生,抗性评价及化防研究[D]. 兰州: 甘肃农业大学, 2020.
[38]	LIU S, WU Q, ZHONG Y, et al. Fosthiazate exposure induces oxidative stress, nerve damage, and reproductive disorders in nontarget nematodes[J]. Environmental science and pollution research, 2023, 30(5):12522-12531.
[39]	袁虹霞, 陈莉, 张飞跃, 等. 小麦禾谷孢囊线虫生防真菌的筛选与鉴定[J]. 植物保护学报, 2011, 38(1):52-58.
[40]	武玉环, 彭焕, 葛逢勇, 等. 5株生防真菌对孢囊线虫的杀线活性测定[J]. 生物技术通报, 2022, 38(11):220. doi: 10.13560/j.cnki.biotech.bull.1985.2022-0691
[41]	张洁, 郭雪萍, 夏明聪, 等. 粉红螺旋聚孢霉NF-06固体发酵条件优化及对南方根结线虫的防治效果[J]. 中国生物防治学报, 2020, 36(1):105. doi: 10.16409/j.cnki.2095-039x.2019.06.007
[42]	ZHANG H, HUANG Q, YI L, et al. PAL-mediated SA biosynthesis pathway contributes to nematode resistance in wheat[J]. The plant journal, 2021, 107(3):698-712. doi: 10.1111/tpj.15316 pmid: 33974322
[43]	SINGH C, ROHATGI D, SIROHI A, et al. Random amplified polymorphic DNA (RAPD) analysis of wheat lines/varieties against cereal cyst nematode, Heterodera avenae[J]. Indian journal of nematology, 2007, 37(1):103-104.
[44]	李春杰, 王从丽. 植物寄生线虫对化感信号的识别及机制[J]. 生物技术通报, 2021, 37(7):35-44. doi: 10.13560/j.cnki.biotech.bull.1985.2021-0514
[45]	刘文德, 代玉立, 邵小龙, 等. 我国主要农作物病害灾变机制与综合防控研究进展:2018年-2022年[J]. 植物保护, 2023, 49(5):1-31.
[46]	杨新玲, 张利兰. 植物寄生线虫防治的新策略[J]. 世界农药, 2001, 5:26-29.
[47]	李军平, 卢智琴, 罗宁, 等. 燕麦孢囊线虫生防真菌TL16发酵条件优化[J]. 草原与草坪, 2022, 42(5):126-131.
[48]	张辉民, 黄文坤, 孔令安, 等. 禾谷孢囊线虫生防真菌的分离鉴定及初步应用[J]. 华北农学报, 2013, 28(4):190-194. doi: 10.3969/j.issn.1000-7091.2013.04.035
[49]	李婷, 黄文坤, 彭德良, 等. 3株生防真菌发酵液对大豆孢囊线虫的防治效果[J]. 华中农业大学学报, 2017, 36(1):42-46.
[50]	林森, 武侠, 曹君正, 等. 产生几丁质酶的交枝顶孢(Acremonium implicatum)对南方根结线虫生防潜力[J]. 植物病理学报, 2013, 43(5):509-517.
[51]	冯家阳, 李常凯, 丁胜利, 等. RNAi在农业病虫害防控中的应用研究进展[J]. 农药学学报, 2022, 24(6):1302-1313.
[52]	于海燕, 李香菊. 节节麦在我国的分布及其研究概况[J]. 杂草学报, 2018, 36(1):1-7.
[53]	SIN G H J, KAUR D J. Sources of resistance to Heterodera avenae in wheat[J]. Plant disease research, 2014, 29(1):80-84.
[54]	JI H, LI Y C, WEN Z, et al. GC-MS analysis of nematicidal essential oil of Mentha canadensis aerial parts against Heterodera avenae and Meloidogyne incognita[J]. Journal of essential oil bearing plants, 2016, 19(8):2056-2064.
[55]	SHAH S, HAFEEZ M, WU M Y, et al. Downregulation of chitin synthase A gene by diallyl trisulfide, an active substance from garlic essential oil, inhibits oviposition and alters the morphology of adult Sitotroga cerealella[J]. Journal of pest science, 2020, 93:1097-1106.
[56]	LI Y C, JI H, LI X H, et al. Isolation of nematicidal constituents from essential oil of Kaempferia galanga rhizome and their activity against Heterodera avenae Wollenweber[J]. Tropical journal of pharmaceutical research, 2017, 16(1):59-65.
[57]	ABDOLLAHI M. Comparison of some Indian populations of cereal cyst nematode, Heterodera avenae (Wollenweber, 1924) using RAPD[J]. Proceedings of the Pakistan academy of sciences, 2008, 45:1-10.
[58]	丁海燕, 梁晨, 赵洪海, 等. 山东省小麦禾谷孢囊线虫rDNA-ITS序列特征和基于ISSR的遗传多样性分析[J]. 植物病理学报, 2015, 45(3):326-336.

排序	数量	中介中心性	国家/地区
1	80	0.19	中国(China)
2	72	0.37	土耳其(Turkey)
3	70	0.23	澳大利亚(Australia)
4	64	0.19	美国(USA)
5	32	0.22	德国(Germany)
6	27	0.14	英格兰(England)
7	25	0.15	比利时(Belgium)
8	24	0.10	法国(France)
9	24	0.05	西班牙(Spain)
10	20	0.02	印度(India)

排序	数量	中介中心性	国家/地区
1	80	0.19	中国(China)
2	72	0.37	土耳其(Turkey)
3	70	0.23	澳大利亚(Australia)
4	64	0.19	美国(USA)
5	32	0.22	德国(Germany)
6	27	0.14	英格兰(England)
7	25	0.15	比利时(Belgium)
8	24	0.10	法国(France)
9	24	0.05	西班牙(Spain)
10	20	0.02	印度(India)

节点编号	聚类大小	同质性	年份	聚类标签
0	29	0.953	2013	禾谷孢囊线虫；抗病基因定位；种质创新；冬前侵染；田间侵染
1	23	0.891	2013	禾谷孢囊线虫；生物学性状；复合菌剂；小麦孢囊线虫；生防真菌
2	21	0.939	2004	小麦孢囊线虫；发生规律；防治措施；大豆孢囊线虫病；小麦孢囊线虫病
3	17	0.819	2015	孢囊线虫；rDNA-ITS；特征分析；发生分布；形态鉴定
4	16	0.895	2015	Heterodera avenae；cereal cyst nematode；Heterodera filipjevi；species identification；效应因子
5	13	0.897	2007	小麦孢囊线虫病；南京农业大学；维多利亚；澳大利亚；燕麦孢囊线虫
6	13	0.901	2015	作用方式；季节动态；生物防治；小麦禾谷孢囊线虫；禾谷孢囊线虫
7	13	0.931	2006	发生动态；小麦禾谷孢囊线虫；轮作模式；种群密度；发生世代
8	11	0.941	2008	品种抗性；种植模式；小麦孢囊线虫；禾谷孢囊线虫；分布调查
9	10	0.948	2014	禾谷孢囊线虫；小麦品种；江苏群体；抗性评价；接种密度
10	6	0.974	2009	原位杂交；原核表达；结合活性；表达水平；基因克隆
11	5	1.000	2000	小麦黄矮病抗性；太谷核不育；磷营养；抗虫基因；抗虫棉；产业化；棉花黄萎病；孢囊线虫病；水稻害虫

节点编号	聚类大小	同质性	年份	聚类标签
0	29	0.953	2013	禾谷孢囊线虫；抗病基因定位；种质创新；冬前侵染；田间侵染
1	23	0.891	2013	禾谷孢囊线虫；生物学性状；复合菌剂；小麦孢囊线虫；生防真菌
2	21	0.939	2004	小麦孢囊线虫；发生规律；防治措施；大豆孢囊线虫病；小麦孢囊线虫病
3	17	0.819	2015	孢囊线虫；rDNA-ITS；特征分析；发生分布；形态鉴定
4	16	0.895	2015	Heterodera avenae；cereal cyst nematode；Heterodera filipjevi；species identification；效应因子
5	13	0.897	2007	小麦孢囊线虫病；南京农业大学；维多利亚；澳大利亚；燕麦孢囊线虫
6	13	0.901	2015	作用方式；季节动态；生物防治；小麦禾谷孢囊线虫；禾谷孢囊线虫
7	13	0.931	2006	发生动态；小麦禾谷孢囊线虫；轮作模式；种群密度；发生世代
8	11	0.941	2008	品种抗性；种植模式；小麦孢囊线虫；禾谷孢囊线虫；分布调查
9	10	0.948	2014	禾谷孢囊线虫；小麦品种；江苏群体；抗性评价；接种密度
10	6	0.974	2009	原位杂交；原核表达；结合活性；表达水平；基因克隆
11	5	1.000	2000	小麦黄矮病抗性；太谷核不育；磷营养；抗虫基因；抗虫棉；产业化；棉花黄萎病；孢囊线虫病；水稻害虫

节点编号	聚类大小	同质性	年份	聚类标签
0	91	0.756	2002	cereal cyst nematode；reactive oxygen species；Host-pathogen interaction；ascorbate peroxidase；LINE Tr-353
1	58	0.855	2003	Heterodera avenae；lethal effects；Trichoderma longi-brachiatum；Bionectriaceae；Triticum aestivum
2	51	0.683	2010	Heterodera avenae；Globodera pallida；electrical conductivity；nematode survey；organic matter
3	51	0.692	2007	cereal cyst nematode；Root-lesion nematode；bare patch；Fusarium crown rot；Rhizoctonia root rot
4	45	0.766	2004	Heterodera avenae；pyruvate dehydrogenase subunit；signaling pathways；Heterodera filipjevi；Meloidogyne javanica
5	36	0.735	2011	Heterodera avenae；cereal cyst nematodes；Heterodera pratensis；molecular species delimitation；population structure
6	35	0.776	2011	cereal cyst nematode；resistance genes；molecular markers；root lesion nematode；common root rot
7	21	0.852	2007	Heterodera avenae；rhizospheric soil；Heterodera filipjevi；Marker-trait associations；candidate gene
8	20	0.903	1999	cereal cyst nematodes；Heterodera avenae；genetic distances；two-dimensional electrophoresis；image computing analysis