Genetic diversity of two races of Meloidogyne enterolobii affecting crops in Brazil and evaluation of new cultivars for host race testing

This study investigated the host races and genetic diversity of Brazilian populations of Meloidogyne enterolobii, an important nematode species with a wide host range that poses a major threat to tropical agriculture. The North Carolina Differential Hosts Test (NCDHT) demonstrated distinct pathogenic profiles in five Brazilian populations, supporting a subclassification of M. enterolobii into two physiological races: race 1 (positive reaction on tomato, tobacco, watermelon, and pepper, but not on cotton and peanut) and race 2 (also positive reaction on cotton, but not on peanut). Since the standard NCDHT cultivars are are not available in Brazil, we evaluated the compatibility of locally available cultivars as potential alternatives. The recommended cultivars for differential diagnosis are tomato ‘Santa Clara’, pepper ‘Magali R’, watermelon ‘Crimson sweet’, peanut ‘IAC Tatu’, tobacco ‘NC4’ and cotton ‘FM966’. Other cultivars with similar genetic backgrounds may also be suitable. Genetic variability was assessed using RAPD and AFLP primers. Low variability among M. enterolobii populations was detected. Concatenated neighbor-joining analysis grouped two guava populations (Race 1) and two cotton populations (Race cotton), with 95 % and 100 % bootstrap support, respectively. The two pepper populations clustered with two groups, and the sweet potato (race 1) population was the most divergent and clustered separately. Mitochondrial DNA (COII) study grouped the two cotton populations in race 2 from Brazil. Despite RAPD/AFLP and COII analysis, genetic traits that are linked to host races remain elusive. Ribosomal DNA (ITS, D2-D3), and the HSP90 gene revealed no interactions related to host races. This study emphasizes the importance of understanding the races and intraspecific variability in managing the impact of M. enterolobii through genetic resistance and crop rotation strategies.