Cultivated Cretan mountain tea or Malotira (Sideritis syriaca L.) was found to be infected by Meloidogyne hapla and Meloidogyne javanica in the island of Crete. The authors provide the first molecular characterization of M. hapla in Greece and the first report of Cretan mountain tea or Malotira as a host of Meloidogyne species worldwide. In addition, Meloidogyne hispanica was found infecting aloe (Andros island) and corn (Drama, North Greece) consisting the first reports of natural infection of these plants by M. hispanica in Europe. Furthermore, infection of corn by M. incognita and soybean by M. javanica (Drama, North Greece) are reported for the first time in Greece. Integrative taxonomical approach based on perineal pattern and EP/st ratio, as well as the region of the mitochondrial genome between the cytochrome oxidase subunit II (coxII) and 16S rRNA mitochondrial DNA (mtDNA) genes was used to differentiate Meloidogyne species.
Cultivated Cretan mountain tea or Malotira (Sideritis syriaca L.) was found to be infected by Meloidogyne hapla and Meloidogyne javanica in the island of Crete. The authors provide the first molecular characterization of M. hapla in Greece and the first report of Cretan mountain tea or Malotira as a host of Meloidogyne species worldwide. In addition, Meloidogyne hispanica was found infecting aloe (Andros island) and corn (Drama, North Greece) consisting the first reports of natural infection of these plants by M. hispanica in Europe. Furthermore, infection of corn by M. incognita and soybean by M. javanica (Drama, North Greece) are reported for the first time in Greece. Integrative taxonomical approach based on perineal pattern and EP/st ratio, as well as the region of the mitochondrial genome between the cytochrome oxidase subunit II (coxII) and 16S rRNA mitochondrial DNA (mtDNA) genes was used to differentiate Meloidogyne species.