Research Advance on the Red Stele Root Rot of Strawberry

doi:10.13560/j.cnki.biotech.bull.1985.2017.03.006

Abstract

Abstract: The red stele root rot of strawberry is caused by infection of Phytophthora fragaria with strong host specificity. Its incidence is increasing year by year,especially the strawberries in the whole continuous cropping field might be destroyed if serious red stele root rot would erupt,which has become one of the main challenges in strawberry production. This article reviews the recent knowledge of red stele root rot,including its discovery,hazards,biology and molecular detection methods of pathogens,the characteristics,and control methods. Finally,the prospects are forecasted to provide some references and theoretical basis for further study.

Key words: strawberry, red stele root rot, Phytophthora fragaria, disease control

CHEN Zhe, HUANG Jing, ZHAO Jia, LIANG Hong. Research Advance on the Red Stele Root Rot of Strawberry[J]. Biotechnology Bulletin, 2017, 33(3): 37-44.

References

[1] Dimeglio LM, Staudt G, Yu H, et al. A phylogenetic analysis of the genus Fragaria（strawberry）using intron-containing sequence from the ADH-1 gene. [J]. PLoS One, 2014, 9（7）：454-455.
[2] Mohamed AW, Jęcz T, Korbin M. The history if genome mapping in Fragaria spp. [J]. Journal of Horticultural Research, 2014, 22（2）：93-103.
[3] Hickman CJ. The red core root disease of the strawberry caused by Phytophthora fragariae n. sp. [J]. Journal of Pomology, 1940：89-118.
[4] Morita H. Red stele root disease of strawberry caused by Phytopht-hora fragariae[J]. Japanese Journal of Phytopathology, 1965, 30（5）：239-245.
[5] Gao R, Cheng Y, Wang Y, et al. Genome sequence of Phytophthora fragariae var. fragariae, a quarantine plant-pathogenic fungus[J]. Genome Announcements, 2014, 3（2）：25-30.
[6] 李红斌. 草莓红中柱根腐病识别与综合防治技术[J]. 浙江农业科学, 2016, 57（3）：376-377.
[7] 王玉民, 陈奇强, 朱红梅. 草莓红中柱根腐病原致病性及杀菌剂毒力测定[J]. 安徽科技学院学报, 2014, 28（6）：15-18.
[8] Manici LM, Caputo F, Baruzzi G. Additional experiences to elucidate the microbial component of soil suppressiveness towards strawberry black root rot complex[J]. Annals of Applied Biology, 2005, 146（146）：421-431.
[9] van de Weg WE, Wassenaar LM, van de Lindeloof CPJ. Inheritance of resistance to Phytophthora fragariae Hickman in strawberry[J]. Euphytica, 1989, 42（42）：25-30.
[10] Meng Y, Zhang Q, Ding W, et al. Phytophthora parasitica：a model oomycete plant pathogen. [J]. Mycology, 2014, 5（2）：43-51.
[11] Kroon LP, Brouwer H, de Cock AW, et al. The genus Phytophthora anno 2012[J]. Phytopathology, 2012, 102（4）：348-64.
[12] Haas BJ, Kamoun S, Zody MC, et al. Genome sequence and analysis of the Irish potato famine pathogen Phytophthora infestans[J]. Nature, 2009, 461（7262）：393-398.
[13] Grünwald NJ, Garbelotto M, Goss EM, et al. Emergence of the sudden oak death pathogen Phytophthora ramorum[J]. Trends in Microbiology, 2012, 20（3）：131-138.
[14] Bertier L, Leus L, D’Hondt L, et al. Host adaptation and specia-tion through hybridization and polyploidy in Phytophthora[J]. PLoS One, 2013, 8（12）：e85385.
[15] Latijnhouwers M, de Wit PJ, Govers F. Oomycetes and fungi：similar weaponry to attack plants[J]. Trends in Microbiology, 2003, 11（10）：462-469.
[16] Milholland RD, Daykin ME. Colonization of roots of strawberry cultivars with different levels of susceptibility to Phytophthora fragariae[J]. Phytopathology, 1993, 83（5）：538-542.
[17] Mirmajlessi SM, Destefanis M, Gottsberger RA, et al. PCR-based specific techniques used for detecting the most important pathogens on strawberry：a systematic review[J]. Systematic Reviews, 2015, 4（1）：1-11.
[18] Stöger A, Ruppitsch W. A rapid and sensitive method for the detection of Xanthomonas fragariae, causal agent of angular leafspot disease in strawberry plants[J]. Journal of Microbiological Methods, 2004, 58（2）：281-284.
[19] Grootveld M, Algeo D, Silwood CJL, et al. Development of a DNA-based method for detection and identification of Phytophthora species[J]. Australasian Plant Pathology, 2006, 35（2）：147-159.
[20] Bonants PJM, Gent-Pelzer MPEV, Hooftman R, et al. A combination of baiting and different PCR formats, including measurement of real-time quantitative fluorescence, for the detection of Phytophthora fragariae, in strawberry plants[J]. European Journal of Plant Pathology, 2004, 110（7）：689-702.
[21] Surhone LM, Tennoe MT, Henssonow SF, et al. Xanthomonas fragariae[J]. Eppo Bulletin, 2006, 36（1）：135-144.
[22] López MM, Llop P, Olmos A, et al. Are molecular tools solving the challenge posed by detection of plant pathogenic bacteria and viruses?[J]. Current Issues in Molecular Biology, 2008, 11：13-146.
[23] Gelvonauskiene D, Rugienus R, Siksnianas T, et al. Screening of apple and strawberry plants carrying fungal disease resistance oligogenes using molecular markers[J]. Agriculture, 2007, 94（4）：139-145.
[24] Scott DH, Draper AD, Galletta GJ. Breeding strawberries for red stele resistance[J]. Plant Breeding Reviews, 2011, 2：195-214.
[25] van de Weg WE. Cultivar-race interactions of the strawberry-Phytophthora fragariae system with regard to a gene-for-gene mode[C]. Acta Hortic, 1989, 265：203-206.
[26] van de Weg WE. A gene-for-gene model to explain interactions between cultivars of strawberry and races of Phytophthora fragariae var fragariae[J]. Theoretical & Applied Genetics, 1997, 94（3-4）：445-451.
[27] Haymes KM, Henken B, Davis TM, et al. Identification of RAPD markers linked to a Phytophthora fragariae resistance gene（Rpf1）in the cultivated strawberry[J]. Theoretical & Applied Genetics, 1997, 94（8）：1097-1101.
[28] Johnson HJr, Holland AH, Paulus AO, et al. Soil fumigation found essential for maximum strawberry yields in southern Alifornia[J]. California Agriculture, 1962, 16（10）：5-6.
[29] Koike ST, Gordon TR. Management of Fusarium wilt of strawberry[J]. Crop Protection, 2015, 73：67-72.
[30] Adela B, Alina I, Cristina P. Prevention and control of strawberry cultivars root diseases[J]. Fruit Growing Research, 2013, XXIX.
[31] Anandhakumar J, Zeller W. Biological control of red stele（Phytophthora fragariae, var. fragariae）and crown rot（P. cactorum）disease of strawberry with rhizobacteria[J]. Journal of Plant Diseases & Protection, 2008, 115（2）：49-56.
[32] Norman JR, Hooker JE. Sporulation of Phytophthora fragariae shows greater stimulation by exudates of non-mycorrhizal than by mycorrhizal strawberry roots[J]. Mycological Research, 2000, 104（5）：1069-1073.