Joan Casals scite author profile

The term “landrace” has generally been defined as a cultivated, genetically heterogeneous variety that has evolved in a certain ecogeographical area and is therefore adapted to the edaphic and climatic conditions and to its traditional management and uses. Despite being considered by many to be inalterable, landraces have been and are in a constant state of evolution as a result of natural and artificial selection. Many landraces have disappeared from cultivation but are preserved in gene banks. Using modern selection and breeding technology tools to shape these preserved landraces together with the ones that are still cultivated is a further step in their evolution in order to preserve their agricultural significance. Adapting historical landraces to present agricultural conditions using cutting-edge breeding technology represents a challenging opportunity to use them in a modern sustainable agriculture, as an immediate return on the investment is highly unlikely. Consequently, we propose a more inclusive definition of landraces, namely that they consist of cultivated varieties that have evolved and may continue evolving, using conventional or modern breeding techniques, in traditional or new agricultural environments within a defined ecogeographical area and under the influence of the local human culture. This includes adaptation of landraces to new management systems and the unconscious or conscious selection made by farmers or breeders using available technology. In this respect, a mixed selection system might be established in which farmers and other social agents develop evolved landraces from the variability generated by public entities.

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Genetic basis of long shelf life and variability into Penjar tomato

Casals

Pascual

Cañizares

et al. 2011

Genet Resour Crop Evol

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Penjar tomato is a varietal type cultivated in northeast Spain that characteristically has a long shelf life, small fruit, and wide morphological variability among cultivars. To determine the genetic basis for the long shelf life in the Penjar varietal type and to describe the genetic background and agromorphologic characteristics of the group, we studied 27 Penjar accessions representative of the entire range of variation in traits related to agronomic behavior, fruit morphology, and sensory quality. We found that the long shelf life of Penjar (mean: 126.8 days) is due to the ripening mutant alcobaça (alc), and the molecular basis of this mutation is the replacement of thymine by adenine in position 317 of the coding sequence of the NAC.NOR gene; thus, alcobaça (alc) is an allele of non-ripening (nor). The amplified fragment length polymorphism (AFLP) study found 18.07% polymorphic loci within the Penjar varietal type, which is higher than usual in landraces. The variation in agronomic and morphologic traits between accessions was also very high; thus, the heterogeneity of the Penjar group probably results from the introduction of the allele alc in distinct landraces. Our results also show that in germplasm containing the alc mutation shelf life is negatively correlated with fruit size (weight, width, length, and number of locules); thus, the predominance of small fruit within the varietal type is probably the result of this trait being dragged along in the selection for long shelf life.

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Primary small cell carcinoma of the esophagus

Casas

Ferrer

Farrús

et al. 1997

Cancer

172

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The risks of success in quality vegetable markets: Possible genetic erosion in Marmande tomatoes (Solanum lycopersicum L.) and consumer dissatisfaction

Casals

Pascual

Cañizares

et al. 2011

Scientia Horticulturae

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Plant Genebanks: Present Situation and Proposals for Their Improvement. the Case of the Spanish Network

Díez

Fernández²,

Martín³

et al. 2018

Front. Plant Sci.

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Genebanks were created by the middle of the twentieth century to preserve cultivated biodiversity when landraces began to be substituted by modern varieties. This move was generally accepted as a necessary step to safeguard the future. After about 75 years of collecting and maintaining genetic resources, the increasing ability of biotechnology to create new variability brings the roles of genebanks in the present and near future into question. As a continuation of several workshops that started in 2014, staff of some representative genebanks have met to discuss how the Spanish Plant Genetic Resources Network can be improved, identifying the following major shortcomings: lack of efficient coordination in the distribution of species among genebanks; too many genebanks; existence of detected and undetected duplicates; insufficient rate of regeneration; insufficient phenotyping, genotyping, and epiphenotyping; unsatisfactory rate of use by end users; and, insufficient funding. As a considerable increase in public funding is unlikely, we propose some strategies to increase the efficiency of the system. The most urgent tasks are to strengthen the rationalization of the network by establishing a clear hierarchy and functions, to improve the information in the base collection by deep characterization including not only phenotypes but also uses and utilities, to progressively replace the active collections with focused core collections constructed to meet users' needs, to optimize regeneration protocols, to limit new collecting expeditions of Spanish crop wild relatives to those growing in threatened habitats, and to develop user-friendly platforms to access germplasm documentation, including a unified system of descriptors and classification categories. Current advances in biotechnology, and especially those in gene editing will have without doubt an impact on the role of genebanks. However, the high number of genes and gene combinations created by evolution they hold cannot be produced by these techniques at present. So, these reservoirs of variability will continue to be indispensable for the near-medium future while the function of all the genes is unveiled. In turn, biotechnologies and gene editing will allow us to take advantage of the information held in genebanks in a more efficient and fast way, contributing to a better rationalization and functioning.

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Joan Casals

Toward an Evolved Concept of Landrace

Genetic basis of long shelf life and variability into Penjar tomato

Primary small cell carcinoma of the esophagus

The risks of success in quality vegetable markets: Possible genetic erosion in Marmande tomatoes (Solanum lycopersicum L.) and consumer dissatisfaction

Plant Genebanks: Present Situation and Proposals for Their Improvement. the Case of the Spanish Network

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