Chenopodium album is a weed host of Meloidogyne incognita (Nematoda: Meloidogynidae) in Peru

Abstract Chenopodium album plants showing symptoms caused by root-knot nematodes were detected in the La Joya, Arequipa, Peru. Based on the morphological, esterase phenotypes, and molecular analyses of the mitochondrial DNA region between the cytochome oxidase subunit II and 16S rRNA genes (mtDNA) and species-specific characterized amplified region, the causal agent of the observed symptoms was identified as Meloidogyne incognita. Pathogenicity was confirmed by fulfilling a modified version of Koch’s postulates. To our knowledge, this is the first report of M. incognita parasitizing C. album in Peru.

Chenopodium album L. (fat-hen) is cosmopolitan, annual weed species of notable economic importance. Their unique biological features, including high reproductive capacity, seed dormancy, high persistence in the soil seed bank, the ability to germinate, and grow under a wide range of environmental conditions and abiotic stress tolerance, help these species to infest diverse cropping systems (Bajwa et al., 2019). The C. album infest many agronomic crops and may cause >90% loss in crop yields (e.g. soybean, wheat, barley, maize, quinoa, potato, sugarbeet, sugarcane, and peanut) (Bajwa et al., 2019).
C. album is more problematic than other species of the genus, as the is more widespread and infests more number of crops, and it also acts as an alternate host of several crop pests and pathogens (Bellé et al., 2019). In this context, several weed species have been reported to host root-knot nematodes (Meloidogyne spp. Göldi, 1887). This genus of root-knot nematodes has the largest impact on major crops in the world, in addition to being the species most commonly found parasitizing weed roots (Ferraz et al., 1978;Moens and Perry, 2009;Bellé et al., 2017). In Peru, there are almost no studies reporting that weeds present in agricultural areas are natural hosts of the nematode Meloidogyne genus (Bazán, 2013).
In February 2020, samples of C. album plants collected (16°27′43.5″S; 71°49′19.6″W) within the La Joya, Arequipa Province, Peru, exhibiting many galls and egg masses due to infection by Meloidogyne sp. (Fig. 1). In order to identify the plant-parasitic nematode species infecting roots of these C. album plants, a combination of morphological, biochemical, and molecular analyses were employed.
The identification to species level of Meloidogyne population was carried out using morphological measurement of second-stage juveniles (J2) (n = 20), females (n = 20), and perineal patterns (n = 20 females), esterase phenotypes (n = 36 females), and molecular characterization of the mitochondrial DNA region between the cytochome oxidase subunit II (COII) and 16S rRNA genes (mtDNA) using the primers C2F3 and 1108 (Powers and Harris, 1993); along with PCR species-specific characterized amplified region (SCAR) sequence for confirmation, using a primer set composed of inc-K14-F and inc-K14-R (Randig et al., 2002).
To satisfy Koch's postulate, C. album plantlets was grown in 2.5 L pots filled with a sterilized soil under greenhouse conditions. Six plantlets were inoculated with 5,000 eggs and J2s from the original population of M. incognita, extracted with 0.5% NaOCl according to Hussey and Barker (1973), using a blender instead of manual shaking. In addition, non-inoculated control six plants were also included in the study. Plants were maintained under greenhouse conditions at 25 ± 3°C, with watering as needed. Two months after inoculation, the root system was rinsed with tap water and weighed; then gall and egg-mass index (GI, EMI) were evaluated (Hartman and Sasser, 1985). Eggs and J2s were extracted as mentioned above, and quantified under a light microscope using Peters' slides. The reproduction factor (RF) was calculated as RF = final population/initial population.

JOURNAL OF NEMATOLOGY
In this greenhouse test, C. album plants showed typical symptoms of M. incognita similar to those observed in the field. This population reproduced well in C. album plants, as shown by the nematode RF = 10.5, IG = 5, EMI = 5. The non-inoculated plants did not exhibit any galls. These results confirmed the pathogenicity of the M. incognita in C. album plants (Koch's postulates).
The C. album, from the results obtained, is hosts of M. incognita, thus contributing to the maintenance and increase of populations in the field. This factor combined with competition for environmental resources, and allelopathy increase the ability of C. album to cause damage to crops (Raimondi et al., 2010). It is also important to note that the management of this host species is very difficult due to their extensive germination period, rapid growth, and seed viability (Heap, 2020). Thus, the difficulty in controlling C. album increases the complexity of M. incognita management in agricultural areas. However, from the knowledge of M. incognita polyphagous nature and its host range, an effective strategy for the management of this pathogen can be developed, reducing the damages caused to quinoa, potato, barley, wheat, maize, fruit trees, and grapevine production in Peruvian agriculture. To our knowledge, this is the first report of M. incognita parasitizing C. album in Peru.