Legacy genetics of Arachis cardenasii in the peanut crop shows the profound benefits of international seed exchange.

The narrow genetics of most crops is a fundamental vulnerability to food security. This makes wild crop relatives a strategic resource of genetic diversity that can be used for crop improvement and adaptation to new agricultural challenges. Here, we uncover the contribution of one wild species accession, Arachis cardenasii GKP 10017, to the peanut crop (Arachis hypogaea) that was initiated by complex hybridizations in the 1960s and propagated by international seed exchange. However, until this study, the global scale of the dispersal of genetic contributions from this wild accession had been obscured by the multiple germplasm transfers, breeding cycles, and unrecorded genetic mixing between lineages that had occurred over the years. By genetic analysis and pedigree research, we identified A. cardenasii-enhanced, disease-resistant cultivars in Africa, Asia, Oceania, and the Americas. These cultivars provide widespread improved food security and environmental and economic benefits. This study emphasizes the importance of wild species and collaborative networks of international expertise for crop improvement. However, it also highlights the consequences of the implementation of a patchwork of restrictive national laws and sea changes in attitudes regarding germplasm that followed in the wake of the Convention on Biological Diversity. Today, the botanical collections and multiple seed exchanges which enable benefits such as those revealed by this study are drastically reduced. The research reported here underscores the vital importance of ready access to germplasm in ensuring long-term world food security.

Fusarium verticillioides and fumonisin contamination in Bt and non-Bt maize cultivated in Brazil.

Fusarium verticillioides is one of the main pathogens of maize, causing ear and stalk rots. This fungus is also able to produce high levels of fumonisins, which have been linked to various illnesses in humans and animals. Previous studies have shown that maize hybrids genetically modified with the cry genes from the bacterium Bacillus thuringiensis (Bt) presented lower incidence of F. verticillioides and fumonisin levels, presumably through the reduction of insects, which could act as vectors of fungi. The aim of this study was to assess the incidence of F. verticillioides and the concentration of fumonisins in Bt and isogenic non-Bt hybrids (2B710Hx, 30F35YG, 2B710, and 30F35, respectively). The samples of 2B710Hx and 30F35YG presented lower F. verticillioides frequency than 2B710 and 30F35 samples. However, there was no statistical difference between fumonisin contamination when Bt and non-Bt samples were compared (P > 0.05). The results suggest that other environmental parameters could possibly trigger fumonisin production during plant development in the field; consequently, other management strategies should be applied to aid controlling fumonisin contamination in maize.

FUM Gene Expression Profile and Fumonisin Production by Fusarium verticillioides Inoculated in Bt and Non-Bt Maize.

This study aimed to determine the levels of fumonisins produced by Fusarium verticillioides and FUM gene expression on Bt (Bacillus thuringiensis) and non-Bt maize, post harvest, during different periods of incubation. Transgenic hybrids 30F35 YG, 2B710 Hx and their isogenic (30F35 and 2B710) were collected from the field and a subset of 30 samples selected for the experiments. Maize samples were sterilized by gamma radiation at a dose of 20 kGy. Samples were then inoculated with F. verticillioides and analyzed under controlled conditions of temperature and relative humidity for fumonisin B1 and B2 (FB1 and FB2) production and FUM1, FUM3, FUM6, FUM7, FUM8, FUM13, FUM14, FUM15, and FUM19 expression. 2B710 Hx and 30F35 YG kernel samples were virtually intact when compared to the non-Bt hybrids that came from the field. Statistical analysis showed that FB1 production was significantly lower in 30F35 YG and 2B710 Hx than in the 30F35 and 2B710 hybrids (P < 0.05). However, there was no statistical difference for FB2 production (P > 0.05). The kernel injuries observed in the non-Bt samples have possibly facilitated F. verticillioides penetration and promoted FB1 production under controlled conditions. FUM genes were expressed by F. verticillioides in all of the samples. However, there was indication of lower expression of a few FUM genes in the Bt hybrids; and a weak association between FB1 production and the relative expression of some of the FUM genes were observed in the 30F35 YG hybrid.

Efeito da época de inoculação do vírus do mosaico das nervuras por Aphis gossypii Glover (Hemiptera: Aphididae) no desenvolvimento e na produção do algodoeiro / Effect of the time of inoculation of the cotton vein mosaic virus by Aphis gossypii Glover (Hemiptera: Aphididae) on growth and yield of cotton plants

O pulgão Aphis gossypii Glover é vetor do vírus do mosaico das nervuras do algodoeiro (VMNA), que pode ocasionar sérios prejuízos à cultura algodoeira. O objetivo deste trabalho foi avaliar o efeito da época de inoculação do VMNA pelo pulgão no desenvolvimento e na produção das plantas de algodoeiro. O ensaio foi conduzido em casa-de-vegetação da UNESP - Universidade Estadual Paulista, em Jaboticabal, SP. Plantas de algodoeiro da cultivar CNPA ITA 90 com 20, 27, 34, 41, 48 e 55 dias após a emergência (DAE) receberam um adulto áptero e virulífero de A. gossypii, que permaneceu confinado nas plantas por um Período de Acesso à Inoculação (PAI) de 48h. Avaliou-se a percentagem de plantas com os sintomas da doença e a influência nos aspectos fenológicos das plantas de algodoeiro. A idade das plantas não influenciou a eficiência de transmissão do VMNA, com percentagens de plantas com sintomas da doença variando de 40 por cento a 65 por cento (20 e 48 DAE, respectivamente). A altura das plantas sofreu reduções de 54,5 por cento (20 DAE) a 1,3 por cento (55 DAE) em relação às plantas testemunhas. O número e diâmetro das maçãs também foram influenciados pela idade das plantas no momento da inoculação. Plantas inoculadas aos 20 DAE não produziram algodão. Plantas inoculadas aos 55 DAE produziram 20,7 g/planta, sendo significativamente inferior ao observado nas plantas sadias (35,9 g/planta). A severidade dos sintomas é diretamente relacionada com a idade das plantas de algodoeiro no momento da infecção.