Evaluación de resistencia a Phytophthora infestans en poblaciones silvestres de Solanum lycopersicum var. cerasiforme

Rodríguez, Luis; Rodríguez-Guzmán, Eduardo; Parra, José Ron; Ramírez, José Luis Martínez; Saldaña, Héctor Lozoya; Martínez, José Sánchez; Ildefonso, Rogelio Lépiz

doi:10.29312/remexca.v4i5.1173

Cited by 6 publications

(6 citation statements)

References 20 publications

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“…Lycopersicoides ) were used. A database was built with information from scientific reports and articles [ 36 , 51 , 52 , 53 , 54 , 55 ] and national (World Biodiversity Information Network) [ 56 ] and international plant inventories (Tomato Genetics Resource Center, Global Biodiversity Information Facility, Solanaceae source) [ 21 , 57 , 58 ].…”

Section: Methodsmentioning

confidence: 99%

Climatic Diversity and Ecological Descriptors of Wild Tomato Species (Solanum sect. Lycopersicon) and Close Related Species (Solanum sect. Juglandifolia y sect. Lycopersicoides) in Latin America

Ojeda

Peralta

Rodríguez-Guzmán

et al. 2021

Plants

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Conservation and sustainable use of species diversity require a description of the environment where they develop. The objectives were to determine ecological descriptors and climatic diversity of areas along the distribution range of 12 species of wild tomatoes (Solanum sect. Lycopersicon) and four wild species of phylogenetically related groups (Solanum sect. Juglandifolia and sect. Lycopersicoides), as well as their ecological similarity in Latin America. With 4228 selected tomato accessions and an environmental information system (EIS) composed of 21 climatic variables, diversity patterns of the distribution areas were identified for each species, as well as ecological descriptors through the use of geographic information systems (GIS). The contribution of climatic variables to the species geographical distribution was identified by principal component analysis (PCA), and similarity in species distribution as a function of the variables identified with cluster analysis (CA). Climatic characteristics and the environmental amplitude of wild tomatoes and related species along their distributional range were satisfactorily determined by ecological descriptors. Eleven climate types were identified, predominantly BSk (arid, steppe, cold), BWh (arid, desert, hot), and Cfb (temperate, no dry season, warm summer). PCA determined 10 most important variables were the most important for the geographical distribution. Six groups of species were identified according to CA and climatic distribution similarity. This approach has shown promissory applications for biodiversity conservation of valuable genetic resources for tomato crop breeding.

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Section: Methodsmentioning

confidence: 99%

Climatic Diversity and Ecological Descriptors of Wild Tomato Species (Solanum sect. Lycopersicon) and Close Related Species (Solanum sect. Juglandifolia y sect. Lycopersicoides) in Latin America

Ojeda

Peralta

Rodríguez-Guzmán

et al. 2021

Plants

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“…Information generated about ecological descriptors associated with physiographic provinces ( Table 1 ) is a source of information of great importance, as combining them opens the possibility of searching for specific tolerance or resistance genes to adverse environmental factors (extreme temperatures, drought, excess of humidity, salinity, and presence of diseases), which is very useful for genetic breeding of tomato commercial varieties. This information, together with all the agronomic information generated over the years, is of great help for the identification and selection of materials with potential use for genetic breeding programs [ 40 , 41 , 42 , 43 ].…”

Section: Discussionmentioning

confidence: 99%

Distribution and Climatic Adaptation of Wild Tomato (Solanum lycopersicum L.) Populations in Mexico

Ojeda

Rodríguez-Pérez

Rodríguez-Guzmán

et al. 2022

Plants

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Tomato (Solanum lycopersicum L.) is a vegetable with worldwide importance. Its wild or close related species are reservoirs of genes with potential use for the generation of varieties tolerant or resistant to specific biotic and abiotic factors. The objective was to determine the geographic distribution, ecological descriptors, and patterns of diversity and adaptation of 1296 accessions of native tomato from Mexico. An environmental information system was created with 21 climatic variables with a 1 km2 spatial resolution. Using multivariate techniques (Principal Component Analysis, PCA; Cluster Analysis, CA) and Geographic Information Systems (GIS), the most relevant variables for accession distribution were identified, as well as the groups formed according to the environmental similarity among these. PCA determined that with the first three PCs (Principal Components), it is possible to explain 84.1% of the total variation. The most relevant information corresponded to seasonal variables of temperature and precipitation. CA revealed five statistically significant clusters. Ecological descriptors were determined and described by classifying accessions in Physiographic Provinces. Temperate climates were the most frequent among tomato accessions. Finally, the potential distribution was determined with the Maxent model with 10 replicates by cross-validation, identifying areas with a high probability of tomato presence. These results constitute a reliable source of useful information for planning accession sites collection and identifying accessions that are vulnerable or susceptible to conservation programs.

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“…Among possible uses of this approach is the identification of the germplasm with tolerance to adverse biotic and abiotic factors ( Foolad and Lin., 2000 ; Mittova et al, 2004 ; Venema et al, 2005 ; Zhao et al, 2005 ; Ruiz-Corral et al, 2008 ; Chetelat et al, 2009 ; Arellano-Rodríguez et al, 2013 ; Ruiz-Corral et al, 2013 ; Cervantes-Moreno et al, 2014 ; Chen et al, 2015 ; Nosenko et al, 2016 ; Stam et al, 2017a ; Stam et al, 2017b ; Flores-Hernández et al, 2017 ; Razali et al, 2018 ; Dinh et al, 2019 ; Vilchez et al, 2019 ) with potential use for genetic breeding, identification of routes of germplasm accession, and areas of high and low diversity for use and conservation ( Vilchez et al, 2019 ). In the information contained in Table 3 , Table 4 , and Figures 4 , 5 , it is possible to identify species with extreme values that indicate tolerance or resistance to climatic and edaphic factors, with potential use as germplasm for genetic breeding.…”

Section: Discussionmentioning

confidence: 99%

“…By considering plant genetic resources as the biological foundation for maintaining and improving crop productivity ( Kantar et al, 2015 ), wild tomato species constitute an important gene pool due to the presence of genes with tolerance and resistance to biotic and abiotic factors ( Arellano-Rodríguez et al, 2013 ; Cervantes-Moreno et al, 2014 ; Nosenko et al, 2016 ; Razali et al, 2018 ; Dinh et al, 2019 ) with potential use for breeding programs. Additionally, several questions arise about these gene pools, such as current distribution, population dynamics in situ or ex situ , and how are they used directly or as sources of genes to generate new varieties that respond to current and future basic problems of tomato cultivation (for example, climate change, diseases, pests), including the contribution of genes capable of conferring a greater nutritional–nutraceutical quality to new varieties ( Chávez-Servia et al, 2011 ; Hernández-Bautista et al, 2014 ).…”

Section: Introductionmentioning

confidence: 99%

Edaphoclimatic Descriptors of Wild Tomato Species (Solanum Sect. Lycopersicon) and Closely Related Species (Solanum Sect. Juglandifolia and Sect. Lycopersicoides) in South America

et al. 2021

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Wild species related to cultivated tomato are essential genetic resources in breeding programs focused on food security to face future challenges. The ecogeographic analysis allows identifying the species adaptive ranges and most relevant environmental variables explaining their patterns of actual distribution. The objective of this research was to identify the diversity, ecological descriptors, and statistical relationship of 35 edaphoclimatic variables (20 climatic, 1 geographic and 14 edaphic variables) from 4,649 accessions of 12 wild tomato species and 4 closely related species classified in Solanum sect. Lycopersicon and clustered into four phylogenetic groups, namely “Lycopersicon group” (S. pimpinellifolium, S. cheesmaniae, and S. galapagense), “Arcanum group” (S. arcanum, S. chmielewskii, and S. neorickii), “Eriopersicon group” (S. habrochaites, S. huaylasense, S. corneliomulleri, S. peruvianum, and S. chilense), “Neolycopersicon group” (S. pennellii); and two phylogenetically related groups in Solanum sect. Juglandifolia (S. juglandifolium and S. ochranthum), and section Lycopersicoides (S. lycopersicoides and S. sitiens). The relationship between the climate and edaphic variables were determined by the canonical correlation analysis, reaching 89.2% of variation with the first three canonical correlations. The most significant climatic variables were related to humidity (annual evapotranspiration, annual precipitation, and precipitation of driest month) and physicochemical soil characteristics (bulk density, pH, and base saturation percentage). In all groups, ecological descriptors and diversity patterns were consistent with previous reports. Regarding edaphoclimatic diversity, 12 climate types and 17 soil units were identified among all species. This approach has promissory applications for biodiversity conservation and uses valuable genetic resources related to a leading crop.

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Evaluación de resistencia a Phytophthora infestans en poblaciones silvestres de Solanum lycopersicum var. cerasiforme

Cited by 6 publications

References 20 publications

Climatic Diversity and Ecological Descriptors of Wild Tomato Species (Solanum sect. Lycopersicon) and Close Related Species (Solanum sect. Juglandifolia y sect. Lycopersicoides) in Latin America

Climatic Diversity and Ecological Descriptors of Wild Tomato Species (Solanum sect. Lycopersicon) and Close Related Species (Solanum sect. Juglandifolia y sect. Lycopersicoides) in Latin America

Distribution and Climatic Adaptation of Wild Tomato (Solanum lycopersicum L.) Populations in Mexico

Edaphoclimatic Descriptors of Wild Tomato Species (Solanum Sect. Lycopersicon) and Closely Related Species (Solanum Sect. Juglandifolia and Sect. Lycopersicoides) in South America

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