This work is licensed under the Creative Commons Attribution 4.0 International License.
BelléC., KasparyT. E., KuhnP. R., SchmittJ. and Lima-MedinaI.2017. Reproduction of Pratylenchus zeae on weeds. Planta Daninha35: e017158528.10.1590/s0100-83582017350100006Search in Google Scholar
CABI2019. Meloidogyne javanica (sugarcane eelworm). Invasive Species Compendium, available at:www.cabi.org/isc/datasheet/33246 (accessedApril 29, 2019).Search in Google Scholar
CarneiroR. M. D. G. and AlmeidaM. R. A.2001. Técnica de eletroforese usada no estudo de enzimas dos nematoides de galhas para identificação de espécies. Nematologia Brasileira25: 555–60.Search in Google Scholar
CarneiroR. M. D. G., AlmeidaM. R. A. and CarneiroR. G.1996. Enzyme phenotypes of Brazilian populations of Meloidogyne spp. Fundamental & Applied Nematology3: 555–60.Search in Google Scholar
ChitwoodB. G.1949. Root-knot nematodes – part I. A revision of the genus Meloidogyne Göldi, 1887. Proceedings of the Helminthological Society of Washington16:90–104.Search in Google Scholar
DasH. and ChakrabortyU.2011. Anti-hyperglycemic effect of Scoparia dulcis in streptozotocin induced diabetes. Research Journal of Pharmaceutical, Biological and Chemical Sciences2: 334–42.Search in Google Scholar
GöldiE. A.1887. Relatório sôbre a molestia do cafeiro na provincial da Rio de Janeiro. Archuivos do MuseuNacional do Rio de Janeiro8:7–123.Search in Google Scholar
HuntD. J. and HandooZ. A.2009. Taxonomy, identification and principal species, in PerryR. N., MoensM. and StarrJ. (Eds), Root-knot Nematodes,CABI Publishing, Wallingford, pp.55–118.Search in Google Scholar
JainR. and SinghM.1989. Factors affecting goatweed (Scoparia dulcis) seed germination. Weed Science37: 766–70.10.1017/S0043174500072817Search in Google Scholar
KarssenG.2002. The plant-parasitic Nematode Genus Meloidogyne Goldi, 1892 (Tylenchida) in Europe, Brill, Leiden.10.1163/9789004475939Search in Google Scholar
MurtlK., PanchalM., TayaP. and RaghuveerS. R.2012. Pharmacological properties of Scoparia dulcis: a review. Pharmacologia3: 344–47.10.5567/pharmacologia.2012.344.347Search in Google Scholar
PandeyR.2017. Diseases of medicinal and aromatic plants: insights in nematode biomanagement. Indian Phytopathology70: 12–21.10.24838/ip.2017.v70.i1.48984Search in Google Scholar
PowersT. O. and HarrisT. S.1993. A polymerase chain reaction method for identification of five major Meloidogyne species. Journal of Nematology25: 1–6.Search in Google Scholar
RammahA. and HirschmannH.1990. Morphological comparison of three host races of Meloidogyne javanica. Journal of Nematology22: 56–68.Search in Google Scholar
RichJ. R., BritoJ. A., KaurR. and FerrelJ. A.2008. Weed species as hosts of Meloidogyne: a review. Nematropica39: 157–85.Search in Google Scholar
TreubM.1885. Onderzoekingen over Sereh-Ziek Suikkeriet gedaan in s Lands Plantentium te Buitenzorg. Mededeelingen uit's Lands Plantentium, Batavia2: 1–39.Search in Google Scholar
ZhangW. J., WangR., ZhangD., WeiW. and ChenH.2014. Interspecific associations of weed species around rice fields in Pearl River Delta, China: a regional survey. Selforganizology1: 143–205.Search in Google Scholar
ZijlstraC., FargetteM. and Donkers-VenneD. T. H. M.2000. Identification of Meloidogyne incognita, M. javanica and M. arenaria using sequence characterised amplified region (SCAR) based PCR assays. Nematology2: 847–53.Search in Google Scholar