Your search keyword '"Belaj, Angjelina"' showing total 132 results

101. Squalene in virgin olive oil: Screening of variability in olive cultivars

Author

Beltrán, Gabriel, primary, Bucheli, Maria E., additional, Aguilera, Maria P., additional, Belaj, Angjelina, additional, and Jimenez, Antonio, additional

Published

2015

102. In Situ Morphological and Agronomical Characterization of Wild Olives (Olea europea subsp. europea var. sylvestris)

Author

Belaj, Angjelina, Leon, Lorenzo, Šatović, Zlatko, Barranco, Diego, de la Rosa, Raul, Rallo, Luis, de la Rosa, Raul, Monteiro, Antonio, and de Oliveira, Pedro Bras

Subjects

wild olive, SSR, morphological traits, plant genetic resources, genetic diversity

Abstract

Wild olive populations are a distinctive element of Mediterranean flora and an important genetic source for resistance to biotic and abiotic stresses in olive selection and breeding. The present study represent the first attempt of in situ agro-morphological evaluation of wild olive trees in Spain. Two provinces of Andalusia (Cadiz and Jaen), Southern Spain, were selected based on previous results on wild olive populations (Belaj et al. 2007). SSR markers have also been used for the study of the genetic diversity and preliminary results are discussed.

Published

2010

103. Variability of wild olives (Olea europaea subsp. europaea var. sylvestris) analyzed by SSR markers and agro-morphological traits

Author

Belaj, Angjelina, Leon, Lorenzo, Šatović, Zlatko, de la Rosa, Raul, Frison, Emile, Graner, Andreas, and Tuberosa, Roberto

Subjects

food and beverages, wild olives, SSR markers, morphological traits, plant genetic diversity

Abstract

Wild olives (Olea europaea subsp. europaea var. sylvestris) represent a distinctive element of Mediterranean flora and an important genetic source for resistance to biotic and abiotic stresses in olive selection and breeding. In this study, genetic diversity among 48 wild genotypes sampled from four different sites from two provinces of Andalusia (Cadiz and Jaen), Southern Spain, was evaluated by means of SSR markers and agro-morphological traits. SSR markers revealed high genetic variability among the genotypes. The cluster analysis based on their polymorphism indicated a certain grouping of wild olives according to their sampling sites. The 20 agro-morphological traits evaluated showed a high variation between genotypes and significant correlation coefficients were obtained among the values recorded in two consecutive harvest seasons, 2007/08 and 2008/09 (r: 0.59-0.78). Traits such as pit shape, fruit symmetry (position A) and oil content on dry basis were very useful in genotype discriminating. The average values obtained in wild olives for fruit size and oil content were lower than the previously reported in cultivated material. However, it is worth mentioning that individuals with fruit weights (1.3 g) and olive oil percentage in dry matter (33.8%) comparable to the values found in some olive cultivars, were also found. With both DNA based and agro morphological descriptors, higher levels of variability were found within each site than between sites. Genetic variation observed among the wild olive germplasm at the DNA level was higher than the agro-morphological traits, indicating the efficiency of SSR markers for detecting genetic diversity among wild olive genotypes and their relationships. Molecular data obtained by SSR markers together with in situ morphological and agronomical characterization of wild olive trees confirmed the high diversity found within the wild populations evaluated. These results indicate the richness of wild olive genetic resources in Andalusia.

Published

2010

104. Caracterización morfológica y agronómica in situ de acebuches (Olea europaea subsp. europaea var. sylvestris)

Author

Belaj, Angjelina, Leon, Lorenzo, Šatović, Zlatko, Barranco, Diego, de la Rosa, Raul, Tous Marti, Joan, Nont Cort, Antonia, and Romero Aroca, Agusti

Subjects

acebuche, recursos genéticos, evaluación agronómica

Abstract

En el presente trabajo, se muestran los resultados de la caracterización morfológica y agronómica de 48 individuos procedentes de las provincias de Jaén y Cádiz realizada en las campañas 2007/08 y 2008/09. Se han muestreado 4 localidades en cada una de las dos provincias. Todos los caracteres evaluados presentaron un alto nivel de variabilidad, evidenciándose las diferencias con el olivo cultivado. En cuanto a la caracterización agronómica, cabe destacar una alta correlación (r2 entre 0.78 y 0.52) entre los valores obtenidos en ambas campañas, lo que refuerza el interés de la evaluación in situ de germoplasma de olivo silvestre. Para todos los caracteres estudiados se ha encontrado mayor variabilidad dentro de localidades que entre localidades, con coeficientes de variación entre 4 y 27 . Esto está de acuerdo con los resultados obtenidos con marcadores moleculares (SSR) donde también se ha encontrado mayor variabilidad genética dentro de cada población que entre poblaciones. Los valores medios de las medidas morfológicas llevadas a cabo en, hojas, fruto y endocarpo concuerdan con estudios previos en acebuche. En general, como cabía esperar, los frutos encontrados han sido, de media, más pequeños y con menos rendimiento graso que el olivo cultivado. No obstante hay que indicar que se han encontrado individuos con peso de fruto de 1, 3 g y otros con rendimiento en seco del 33, 8%, comparables a los valores de algunas variedades. Estos resultados indican que dentro del germoplasma de acebuche de Andalucía existe una gran variabilidad que es necesario conservar.

Published

2009

105. Genetska raznolikost divljih i kultiviranih maslina u Španjolskoj

Author

Belaj, Angjelina, Munoz Diez, Concepcion, Baldoni, Luciana, Barranco, Diego, Šatović, Zlatko, and Pospišil, Milan

Subjects

divlje masline, genetska struktura, kultivari, mikrosateliti, oleastri

Abstract

Poznavanje genetske raznolikosti divljih populacija maslina kao i genetskog odnosa između divljih populacija i lokalnih kultivara maslina od velikog su zanimanja za rekonstrukciju povijesti uzgoja maslina. U svrhu analize genetske raznolikosti unutar i između sedam populacija divljih maslina i šest skupina lokalnih kultivara iz dvije važne uzgojne regije (Andaluzija i Levant) u Španjolskoj korišteno je osam mikrosatelitnih biljega. Kultivari su pokazali znatno veću razinu zapažene heterozigotnosti dok su vrijednosti očekivane heterozigotnosti bile veće kod divljih populacija. U dendrogramu po Fitchu i Margoliashu upotrebom matrice genetskih udaljenosti na temelju udjela zajedničkih alela uočene su tri glavne skupine koje uključuju uglavnom divlje masline iz Andaluzije (Skupina I), divlje i kultivirane masline s Levanta (Skupina II), te kultivare iz Andaluzije (Skupina III). Rezultati analize molekularne varijance (AMOVA) su pokazali da je postojala značajna razlika između divljih i kultiviranih maslina iz Andaluzije, a između divljih i kultiviranih s Levanta razlika nije postojala. U skladu s ovim rezultatima, Bayesovska metoda razvrstavanja u skupine na temelju modela (STRUCTURE) omogućila je otkrivanje triju genskih skupova: andalužanski divlji, levantinski i andalužanski kultivirani. Navedeni rezultati mogli bi ukazivati na činjenicu da divlje masline iz Andaluzije predstavljaju oleastre, dok divlje s Levanta uključuju uglavnom feralne oblike nastale iz sjemena kultiviranih maslina ili hibridizacijom između oleastera i kultivara.

Published

2007

106. Prospección y estudio de la variabilidad genética de las poblaciones de olivo silvestre en Espa&ntilde ; a mediante marcadores SSR

Author

Mu&ntilde, oz-Díez, Concepcion, Šatović, Zlatko, Baldoni, Luciana, Barranco, Diego, and Belaj, Angjelina

Subjects

Olea europea, acebuches, microsatelites, diversidad genetica

Abstract

Se analizaron 158 individuos, 107 olivos silvestres localizados en las comunidades de Andalucía, Valencia y Catalu&ntilde ; a y 51 variedades locales originarias de estas comunidades aportadas por el Banco Mundial de Germoplasma de Olivo del IFAPA Alameda del Obispo de Córdoba. Se emplearon 8 locus SSR, dando lugar a la amplificación de 132 alelos. El número medio de alelos por locus fue de 15, variando entre 6 y 32. En todo el material se obtuvieron elevados valores de heterocigosidad observada (Ho), diversidad genética (He) y contenido de información polimórfica (PIC). La mayor parte de la diversidad genética (84, 07%), se debió a diferencias entre individuos. Curiosamente las diferencias entre grupos (cultivado vs. silvestre), no fueron significativas, sugiriendo que la diferenciación genética entre ambos no es tan clara.

Published

2006

107. Genetic Diversity and Relationship among Wild Olive Populations

Author

Belaj, Angjelina, Munoz-Diez, Concepcion, Baldoni, Luciana, Porceddu, Andrea, Barranco, Diego, Šatović, Zlatko, Gunjača, Jerko, van Eeuwijk, Fred A., and Šatović, Zlatko

Subjects

wild olives, oleasters, feral forms, microsatellites, genetic structure

Abstract

Wild olives (Olea europaea subsp. europaea var. sylvestris) include true oleasters (corresponding to the wild forms present in natural areas) and feral forms, which may be seedlings of the cultivated clones or result from hybridisation between the true oleasters and olive cultivars. The knowledge of the genetic variability of wild olive populations and the study of their relationships may be of great interest for their possible use as a new source of variability in breeding programmes. For that purpose, eight microsatellite markers have been used to study the genetic variation within and between 11 wild olive populations from Southern and North-Eastern Spain and mainland and insular Italy. Our study uncovered abundant allelic variation over eight loci with an average of 18.5 per locus alleles and high values of observed and expected heterozygosity (mean values of 0.717 and 0.843 respectively). Although most of the genetic diversity was attributable to differences among individuals within populations (91.8%), significant phi-values among populations suggested the existence of genotypic differentiation. The analysis of STRUCTURE allowed the detection of four different gene pools: OS, OI, F1 and F2 despite the overall low interpopulation differentiation of this tree species. The gene pools OS and OI predominantly found in southern Spain and Italian islands, respectively may correspond to genuine wild olive germplasm. The gene pools F1 and F2 detected in North-Eastern regions of Spain and in continental Italy likely represent feral gene pools. The existence of four gene pools and the evidence of differences between the genuinely wild olive germplasm and the feral forms were in overall concordance with the Fitch-Margoliash tree based on Nei's genetic distance.

Published

2006

108. Upotreba mikrosatelitnih biljega u klasifikaciji kultivara

Author

Šatović, Zlatko, Vaz Patto, Maria Carlota, Javornik, Branka, Belaj, Angjelina, Kolak, Ivan, Kovačević, Josip, and Lalić, Alojzije, Šatović, Zlatko

Subjects

mikrosateliti, klasifikacija kultivara, genetska raznolikost, genetska udaljenost, mutacijski modeli

Abstract

Genotipizacija kultivara molekularnim tehnikama na razini DNA omogućava preciznu identifikaciju, klasifikaciju i kvantitativnu procjenu genetske raznolikosti. Točna procjena postaje sve bitnija jer sužavanjem genetske raznolikosti može doći i do smanjenja plastičnosti kultura u prilagodbi budućim klimatskim promjenama kao i promjenama u populacijama patogena i u agrikulturnoj praksi. Mikrosateliti ili Pojavljajuće jednostavne sekvence (Single Sequence Repats - SSRs) su kratki segmenti DNA u kojim se specifični motiv sastavljen od jedne do šest nukleotidnih baza ponavlja. Ove regije su česte, javljaju se nasumično po biljnom genomu i obično pokazuju veliku varijabilnost između jedinki, populacija i vrsta. Da bi se koristili kao molekularni biljezi, mikrosatelitni lokusi se pojedinačno amplificiraju pomoću lančane reakcije polimerazom (PCR) koristeći oligonukleotidne početnice (primers) specifičnima za sekvence DNA koje omeđuju sekvencu SSR. Polimorfizam u dužini amplificiranih fragmenata uzrokovan je razlikama u broju ponavljanja motiva. Imajući na umu velik broj dostupnih molekularnih sustava biljega, mikrosateliti su vrlo dobar izbor za različite svrhe, budući da su specifični za određeni lokus, kodominantni, vrlo polimorfni i ponovljivi. Kod nekih biljnih vrsta kao što su kukuruz, riža ili Arabidopsis, prikupljena je velika kočina podataka o sekvencama DNA tako da se mikrosateliti mogu lako identificirati pretraživanjem baza podataka. No, budući da su mikrosateliti uglavnom specifični za određenu vrstu, za vrste kod kojih nema informacija o mikrosatelitnim početnicama, razvitak novih SSR analizom genomskih knjižnica DNA obogaćenima s jednim ili više ponavljajućih motiva iziskuje naporan rad uz relativno visoke troškove. U ovom je radu dan pregled osnovnih statističkih metoda analize mikrosatelitnih podataka. Raspravljena je informativnost mikrosatelitnih biljega kao i upotreba metoda genetske udaljenosti temeljenih na različitim modelima mutacije mikrosatelita. Dani su primjeri klasifikacije kultivara kod kukuruza, hmelja i maslina koji predstavljaju različite pristupe analizi mirkosatelitnih podataka.

Published

2005

109. Identification of QTL for agronomic traits of importance for olive breeding

Author

Fundación Genoma España, Junta de Andalucía, CSIC - Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA), Ministerio de Educación y Cultura (España), Atienza, Sergio G., de la Rosa, Raúl, León, Lorenzo, Martín, Antonio, Belaj, Angjelina, Fundación Genoma España, Junta de Andalucía, CSIC - Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA), Ministerio de Educación y Cultura (España), Atienza, Sergio G., de la Rosa, Raúl, León, Lorenzo, Martín, Antonio, and Belaj, Angjelina

Abstract

Development of methodologies for early selection is one of the most important goals of olive breeding programs at present. In this context, the identification of molecular markers associated with beneficial alleles could allow the development of marker-assisted selection (MAS) strategies in olive breeding programs. Fruit-related and plant vigor traits, which are of key importance for olive selection and breeding, were analyzed during two seasons in a progeny derived from the cross ‘Picual’ × ‘Arbequina.’ Quantitative trait loci (QTL) analyses were performed using MapQTL 4.0. A total of 22 putative QTLs were identified in the map of ‘Arbequina.’ QTLs clustered in linkage groups (LG) 1, 10 and 17. QTLs for oil-related traits located in LG 1 and 10 explained around 20–30 % of the phenotypic variability depending on the season and the trait. QTL for moisture-related traits were detected in LG 1, 10 and 17, and QTLs for the ratio pulp to stone were identified in LG 10 and 17 explaining around 15–20 %. Interaction between QTLs for the same trait was investigated. The significance of these results was discussed considering the co-localization of QTLs and Pearson correlations among traits. Five additional QTLs were detected in the map of ‘Picual.’ Four of them clustered in LG 17 indicating the presence of a QTL for fruit weight explaining around 12.7–15.2 % of the variability. Additionally, a QTL for trunk diameter was detected in LG 14 explaining 16 % of the variation. These results represent an important step toward the application of MAS in olive breeding programs.

Published

2014

110. Development of DArT markers in olive (Olea europaea L.) and usefulness in variability studies and genome mapping

Author

Domínguez García, María C., Belaj, Angjelina, de la Rosa, Raúl, Satovic, Zlatko, Heller-Uszynska, K., Kilian, Andrzej, Martín, Antonio, Atienza, Sergio G., Domínguez García, María C., Belaj, Angjelina, de la Rosa, Raúl, Satovic, Zlatko, Heller-Uszynska, K., Kilian, Andrzej, Martín, Antonio, and Atienza, Sergio G.

Abstract

The present study reports the setting up of Diversity Arrays Technology (DArT) markers in olive (Olea europaea L.). Two genomic representations were generated using the PstI/. TaqI combination. A first one was aimed to cover the variability available at the World Olive Germplasm Bank (WOGB) and it was based on DNA from 87 olive cultivars carefully selected from the WOGB to represent the olive variability. The second one was obtained from DNA of the parents of a mapping population, 'Picual' and 'Arbequina', and was used to increase the number of markers segregating within them. A total of 2031 and 1630 markers were used for diversity and mapping analyses, respectively to test the utility of DArT markers in olive. A set of 62 cultivars was genotyped with olive-specific DArT markers. A dendrogram was constructed confirming the relationships among olive cultivars reported in previous works. Besides, DArT markers permitted the unambiguous discrimination of all 62 genotypes confirming thus their utility for identification studies, an important issue for management of germplasm collections. DArT markers also allowed the construction of a genetic map of olive using the population derived from the cross 'Picual'. ×. 'Arbequina' and the pseudo-testcross mapping strategy. This map will be used as a framework map to add new markers derived from olive sequencing originating from the project OLEAGEN. In conclusion, olive-specific DArT markers will enhance identification and genetic studies in olive given their high throughput and low cost per data. © 2011 Elsevier B.V.

Published

2012

111. Variability of wild olives (Olea europaea subsp. europaea var. sylvestris) analyzed by agro-morphological traits and SSR markers

Author

CSIC - Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA), Ministerio de Educación y Cultura (España), European Commission, Belaj, Angjelina, León, Lorenzo, Satovic, Zlatko, de la Rosa, Raúl, CSIC - Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA), Ministerio de Educación y Cultura (España), European Commission, Belaj, Angjelina, León, Lorenzo, Satovic, Zlatko, and de la Rosa, Raúl

Abstract

The genetic diversity of wild olive trees sampled from eight different sites from two provinces of Andalusia (Cadiz and Jaen), Southern Spain, was evaluated by means of agro-morphological traits and SSR markers. The agro-morphological traits showed a high variation between genotypes and significant correlation coefficients were obtained among the values recorded in two consecutive years, 2007/08 and 2008/09 (r= 0.59-0.78). Traits such as fruit symmetry (position A), stone shape, fruit flesh/stone ratio and olive oil content on both wet and dry matter, showed the highest values of diversity and were very useful in genotype discrimination. As expected, average values obtained in wild olives for fruit size and oil content were lower than the previously reported in cultivated material. However, it is noticeable that wild trees with fruit weights (1.3. g) and olive oil percentage in dry matter (33.8%) comparable to the values found in some olive cultivars, were also found. With both DNA-based and agro-morphological descriptors, higher levels of variability were found within each site than between sites. Genetic variation observed among the wild olive germplasm at the DNA level was higher than the agro-morphological traits, indicating the efficiency of SSR markers for detecting genetic diversity among wild olive genotypes and their relationships. The lack of consistency between the relationship studies performed with molecular and morphological markers could indicate that each marker system measures different aspects of the wild olive genetic variability. Molecular data obtained by SSR markers together with morphological and agronomical characterization of olive trees confirmed the high diversity within the wild populations and their potential use for olive breeding. © 2011 Elsevier B.V.

Published

2011

112. Marcadores de ADN para la identificación de variedades del olivo

Author

Trujillo, Isabel, Belaj, Angjelina, and Rallo Romero, Luis

Subjects

Olivo, Marcadores de ADN

Published

1999

113. Agronomic evaluation of seedlings from crosses between the main Spanish olive cultivar ‘Picual’ and two wild olive trees

Author

Klepo, Tatjana, primary, Toumi, Amani, additional, De La Rosa, RaÚl, additional, LeÓn, Lorenzo, additional, and Belaj, Angjelina, additional

Published

2014

114. Development of EST-derived SSR Markers with Long-core Repeat in Olive and Their Use for Paternity Testing

Author

De la Rosa, Raúl, primary, Belaj, Angjelina, additional, Muñoz-Mérida, Antonio, additional, Trelles, Oswaldo, additional, Ortíz-Martín, Inmaculada, additional, González-Plaza, Juan José, additional, Valpuesta, Victoriano, additional, and Beuzón, Carmen R., additional

Published

2013

115. Squalene in virgin olive oil: Screening of variability in olive cultivars.

Author

Beltrán, Gabriel, Bucheli, Maria E., Aguilera, Maria P., Belaj, Angjelina, and Jimenez, Antonio

Subjects

PLANT germplasm, OLIVE oil, PLANT variety testing, SQUALENE, MICROBIOLOGY

Abstract

Twenty-eight olive cultivars ( Olea europaea L.) from the World Olive Germplasm Collection of IFAPA in Cordoba were studied, analyzing the squalene concentration of their virgin olive oils (VOO). Squalene content ranged from 110 to 839 mg/100 g achieving a mean value for the set of olive cultivars of 502 mg/100 g. The high variability observed could be explained only by the genetic component. Five olive cultivar categories were established for the oil squalene concentration when a Hierachical discriminant analysis was performed. Virgin olive oil can be considered an important source of squalene, it may be used also for characterization and discrimination of monovarietal virgin olive oils. Practical applications: Squalene content in virgin olive oil has a genetic component. The variability for Squalene content between monovarietal oils can be used to choose the optimal VOO for nutrition studies. Squalene may be used to discriminate virgin olive oil of an olive cultivar from other monovarietal oils. Virgin Olive Oil squalene content show a significant genetic variability. [ABSTRACT FROM AUTHOR]

Published

2016

116. Developing a core collection of olive (Olea europaea L.) based on molecular markers (DArTs, SSRs, SNPs) and agronomic traits

Author

Belaj, Angjelina, primary, Dominguez-García, Maria del Carmen, additional, Atienza, Sergio Gustavo, additional, Martín Urdíroz, Nieves, additional, De la Rosa, Raúl, additional, Satovic, Zlatko, additional, Martín, Antonio, additional, Kilian, Andrzej, additional, Trujillo, Isabel, additional, Valpuesta, Victoriano, additional, and Del Río, Carmen, additional

Published

2011

117. Genetic diversity and relationships between wild and cultivated olives (Olea europaea L.) in Sardinia as assessed by SSR markers

Author

Erre, Patrizia, primary, Chessa, Innocenza, additional, Muñoz-Diez, Concepción, additional, Belaj, Angjelina, additional, Rallo, Luis, additional, and Trujillo, Isabel, additional

Published

2009

118. Identification and Classification of Main Iranian Olive Cultivars Using Microsatellite Markers

Author

Noormohammadi, Zahra, primary, Hosseini-Mazinani, Mehdi, additional, Trujillo, Isabel, additional, Rallo, Luis, additional, Belaj, Angjelina, additional, and Sadeghizadeh, Majid, additional

Published

2007

119. De Novo Assembly and Functional Annotation of the Olive (Olea europaea) Transcriptome.

Author

Muñoz-Mérida, Antonio, González-Plaza, Juan José, Cañada, Andrés, Blanco, Ana María, García-López, Maria del Carmen, Rodríguez, José Manuel, Pedrola, Laia, Sicardo, M. Dolores, Hernández, M. Luisa, De la Rosa, Raúl, Belaj, Angjelina, Gil-Borja, Mayte, Luque, Francisco, Martínez-Rivas, José Manuel, Pisano, David G., Trelles, Oswaldo, Valpuesta, Victoriano, and Beuzón, Carmen R.

Abstract

Olive breeding programmes are focused on selecting for traits as short juvenile period, plant architecture suited for mechanical harvest, or oil characteristics, including fatty acid composition, phenolic, and volatile compounds to suit new markets. Understanding the molecular basis of these characteristics and improving the efficiency of such breeding programmes require the development of genomic information and tools. However, despite its economic relevance, genomic information on olive or closely related species is still scarce. We have applied Sanger and 454 pyrosequencing technologies to generate close to 2 million reads from 12 cDNA libraries obtained from the Picual, Arbequina, and Lechin de Sevilla cultivars and seedlings from a segregating progeny of a Picual × Arbequina cross. The libraries include fruit mesocarp and seeds at three relevant developmental stages, young stems and leaves, active juvenile and adult buds as well as dormant buds, and juvenile and adult roots. The reads were assembled by library or tissue and then assembled together into 81 020 unigenes with an average size of 496 bases. Here, we report their assembly and their functional annotation. [ABSTRACT FROM PUBLISHER]

Published

2013

120. Factors influencing the efficiency of foliar sprays of monopotassium phosphate in the olive.

Author

Barranco, Diego, Ercan, Hicran, Muñoz-Díez, Concepción, Belaj, Angjelina, and Arquero, Octavio

Subjects

*FOLIAR application of agricultural chemicals, *FERTILIZERS & the environment, *OLIVE, *FOLIAR feeding, *POTASSIUM phosphates, *PHYSIOLOGICAL effects of potassium, *SURFACE active agents, *UREA

Abstract

Olive trees have been traditionally cultivated in dry conditions as it is a crop very well adapted to Mediterranean dry lands. Foliar fertilization is a widespread application method used by olive growers to correct frequent deficient levels of potassium in olive trees under rainfed conditions. Monopotassium Phosphate (MKP) is an economic and easily available fertilizer and a fast source of P and K when it is applied as a foliar spray. The influence of environmental and formulation factors on the efficiency of MKP foliar application has never been evaluated. In this study the different responses of five MKP foliar treatments (control-untreated, MKP3% at dayligh, MKP3% overnight, MKP3% plus urea and MKP3% plus surfactant) on olive trees under field conditions were evaluated during three different application times (April, July, and November). In all cases, MKP3% plus urea and MKP3% plus surfactant increased P contents with July being the most effective treatment month. All treatments, except MKP3% at dayligh, improved the K nutritional state of olive in July, but not in November or April. In general, the addition of urea and surfactant to the MKP3% solution and its application in July improved its efficiency on olive trees, most likely due to the higher proportion of young leaves present during this period. [ABSTRACT FROM AUTHOR]

Published

2010

121. Variability Characterization of the Olive Species Regarding Virgin Olive Oil Aroma Compounds by Multivariate Analysis of GC Data

Author

Sanz, Carlos, Belaj, Angjelina, Pascual, Mar, and Pérez, Ana G.

Subjects

Science / Chemistry

Abstract

Virgin olive oil is characterized by its unique aroma, which is synthesized when olive fruits are crushed during the industrial process used for oil production. The genetic variability of the major volatile compounds comprising the oil aroma was studied in a representative sample of olive cultivars from the World Olive Germplasm Collection (IFAPA, Cordoba, Spain). The analytical data demonstrated that a high degree of variability for the content of volatile compounds is found in the olive species and that most of the volatile compounds found in the oils were synthetized by the enzymes included in the so-called lipoxygenase pathway. The use of multivariate analysis to identify cultivars is particularly interesting in terms of volatile composition and deduced organoleptic quality. It can be used for identification of old olive cultivars that give rise to oils with a high organoleptic quality and in parent selection for olive breeding programs.

Published

2020

122. High-throughput analysis of the canopy traits in the worldwide olive germplasm bank of Córdoba using very high-resolution imagery acquired from unmanned aerial vehicle (UAV).

Author

Gómez-Gálvez, Francisco J., Pérez-Mohedano, Daniel, de la Rosa-Navarro, Raúl, and Belaj, Angjelina

Subjects

*GERMPLASM, *OLIVE, *TREE height, *CROWNS (Botany), *DIGITAL elevation models

Abstract

• Using UAV-imagery enables to detect the wide variability on canopy traits in a cultivated olive germplasm bank. • The assessed UAV methodology is as reliable as traditional on-ground methodology and is a potential tool for olive breeders. • Consumer-grade cameras on UAVs can be adequate for high-performance phenotyping purposes in olive tree. • The UAV methodology allows to identify inter- and intra-cultivar differences. The characterization of tree canopy traits represents a key step to identify potential cultivars adaptable to a specific growing system. Developing methodologies to rapidly evaluate canopy traits allows to classify cultivars in germplasm banks and facilitates selections in breeding programs. In the present work, the ability of low-cost unmanned aerial vehicle (UAV) was compared with on-ground traditional methodology for measuring canopy traits (namely crown diameters, tree height and crown volume) in trees of the Worldwide Olive Germplasm Bank of Córdoba. The evaluated trees belonged to a wide range of cultivars and were planted in three different dates. A wide variability was found for the four parameters measured with both on ground and UAV methodologies. Besides, a significant linear correlation was observed at tree and cultivar level, with relative errors that ranged from 4.44 to 13.9 % for axial parameters or from 17.0–29.0% for volume, depending on the planting date considered. ANOVA and Tukey's results showed a high agreement between both methodologies in identifying cultivars with similar vigour values. When comparing means over time, the UAV-based data allowed a slightly better detection of significant differences than on-ground data. The results provided by the present research indicated that the use of UAV is a reliable methodology to study tree canopy traits in olive germplasm banks, supporting breeders to the identification and definition of the genetics behind crop variability. The evaluation here performed indicates that there is a wide variability on canopy traits on the cultivated olive germplasm that could be exploited to select potential cultivars for different growing systems. [ABSTRACT FROM AUTHOR]

Published

2021

123. Plasticity of fruit and oil traits in olive among different environments.

Author

Mousavi, Soraya, de la Rosa, Raul, Moukhli, Abdelmajid, El Riachy, Milad, Mariotti, Roberto, Torres, Mariela, Pierantozzi, Pierluigi, Stanzione, Vitale, Mastio, Valerio, Zaher, Hayat, El Antari, Abderraouf, Ayoub, Salam, Dandachi, Faten, Youssef, Hiyam, Aggelou, Nikolas, Contreras, Cibeles, Maestri, Damián, Belaj, Angjelina, Bufacchi, Marina, and Baldoni, Luciana

Subjects

*PHENOTYPIC plasticity, *LINOLEIC acid, *THERMAL stability, *HERITABILITY, *HIGH temperatures

Abstract

Olive is a long-living perennial species with a wide geographical distribution, showing a large genetic and phenotypic variation in its growing area. There is an urgent need to uncover how olive phenotypic traits and plasticity can change regardless of the genetic background. A two-year study was conducted, based on the analysis of fruit and oil traits of 113 cultivars from five germplasm collections established in Mediterranean Basin countries and Argentina. Fruit and oil traits plasticity, broad‐sense heritability and genotype by environment interaction were estimated. From variance and heritability analyses, it was shown that fruit fresh weight was mainly under genetic control, whereas oleic/(palmitic + linoleic) acids ratio was regulated by the environment and genotype by environment interaction had the major effect on oil content. Among the studied cultivars, different level of stability was observed, which allowed ranking the cultivars based on their plasticity for oil traits. High thermal amplitude, the difference of low and high year values of temperature, negatively affected the oil content and the oleic acid percentage. Information derived from this work will help to direct the selection of cultivars with the highest global fitness averaged over the environments rather than the highest fitness in each environment separately. [ABSTRACT FROM AUTHOR]

Published

2019

124. Marcadores moleculares de ADN : análisis de variabilidad, relaciones genéticas y mapeo en olivo (Olea Europaea L.)

Author

Domínguez García, Mª del Carmen, Rosa Navarro, Raúl de la, and Belaj, Angjelina

Subjects

Banco de Germoplasma mundial del Olivo, Olivo, Marcadores de ADN, Olea Europaea L

Abstract

El olivo (Olea europaea L.) es uno de los cultivos más antiguos de la cuencamediterránea y cuenta con un gran patrimonio genético. Sin embargo, latendencia actual en la mayoría de los países olivareros es hacia la utilizaciónde pocas variedades muy populares. Por tanto la conservación de estadiversidad genética resulta de vital importancia para evitar su pérdida. Durantelas últimas décadas, se han realizado importantes trabajos de prospección,recolección, caracterización y evaluación de las variedades más importantes deolivo. La conservación y el estudio de los recursos genéticos del olivo implicanel establecimiento de Bancos de Germoplasma, basados en colecciones encampo, como ocurre en el resto de especies frutales. El primer aspecto a teneren cuenta en el manejo de estas colecciones es la correcta identificación delmaterial existente, así como de las entradas que se van incorporando demanera sucesiva. En el caso del olivo, la presencia recurrente de sinonimias (lamisma variedad con distintos nombres) y homonimias (distintas variedades conel mismo nombre), hace que se acentúe la necesidad de una correctaidentificación varietal.El Banco de Germoplasma Mundial de Olivo (BGMO) de Córdoba es uno de losdos bancos de referencia Internacional. Incluye más de 450 cultivares de 17países distintos, lo que representa un porcentaje elevado de la variabilidad dela especie en la cuenca mediterránea. La correcta identificación de ésta y otrascolecciones de germoplasma de olivo así como el estudio de la variabilidadgenética son principalmente realizadas por marcadores moleculares. Tambiéntiene un creciente interés la utilidad de los mismos en la mejora genética. En elpresente trabajo se han utilizado tres tipos de marcadores moleculares (SSRs,SNPs y DArTs) para la identificación, estudios de variabilidad genética y mapeoen germoplasma asociado al BGMO.En un primer apartado se ha realizado la identificación de 14 nuevasvariedades argelinas, recientemente introducidas en el BGMO, con marcadoresmoleculares (SSRs y SNPs). La comparación de los perfiles de estosmarcadores con 5 variedades de Argelia, Túnez y Marruecos, previamente incluidas en el BGMO, indicó que estas variedades difieren de ellas y del restoy su introducción enriquecerá el BGMO con material vegetal de este país.Aunque se han detectado algunos casos de homonimias en las variedadesargelinas, la alta variabilidad genética observada es un indicio de la riqueza delsu germoplasma.Posteriormente se ha descrito la puesta a punto de los primeros marcadoresmoleculares de alto rendimiento para el olivo, los denominados DArTs. Estosmarcadores no necesitan un conocimiento previo de la secuencia de ADN.Aunque son dominantes, tienen una alta reproductividad (99,8%) y un bajocoste. Se han utilizado para identificar de manera inequívoca una muestra de62 variedades pertenecientes al BGMO. El dendograma construido en base aello ha confirmado su agrupación por origen geográfico, previamenteobservada con otros marcadores moleculares. También se ha demostrado lautilidad de estos marcadores de alto rendimiento en la construcción de unmapa de ligamiento en una progenie de las variedades ‘Picual’ y ‘Arbequina’.Se han obtenido un total de 23 grupos de ligamiento para cada parental.Además algunos microsatélites, también incluidos en dicho mapa, hanpermitido establecer relaciones entre grupos de ligamiento de ambosparentales.Por último, la variabilidad existente en el BGMO se ha evaluado conmarcadores DArT, microsatélites, SNPs y características agronómicas, paraconstruir la primera colección nuclear de dicho Banco. Se han obtenido cincocolecciones nucleares, que contenían desde 18 hasta 68 variedades. De todasellas, la colección nuclear de 68 variedades parece la más indicada paraestudios de conservación, dado que retenía todos los alelos y caracteresanalizados. Por otro lado, la colección nuclear de 36 variedades se reveló comola más adecuada para estudios de mejora, dada la elevada distancia genéticamedia y la buena representación de las distintas regiones del Mediterráneo enun número relativamente pequeño de variedades, Olive (Olea europaea L.) is one of the oldest trees cultivated in theMediterranean Basin and it includes a high genetic patrimony. However, in mostolive growing countries, olive orchards are composed by a very reducednumber of well known cultivars. In this sense, the preservation of olive geneticpatrimony is of vital importance for avoiding the possible erosion. During the lastdecades, considerable prospections, recollections, characterization andevaluation surveys, have been performed on the main olive cultivars.Similarly to other fruir species, the conservation and the study of olive geneticresources implies, the establishment of ‘ex situ’ collections (Germplasm Banks).The identification of existing plant material as well as of new accessionscontinously introduced in the collections is a priority task for their correctmanagement. In olive, the presence of many synonyms (the same variety withdifferent names) and homonyms (different varieties with the same name) makesthe identification highly needed.The World Olive Germplasm Bank (WOGB) in Cordoba, is one of the twointernational collections of reference. It includes more than 450 cultivars from 17different countries thus representing a high percentage of the variability ofspecies in the Mediterranean Basin.Molecular markers have mostly been used in olive for correct identification ofgermplasm collections as well as for genetic diversity studies. Their utility forolive breeding has being of great interest. In the present work, three types ofmolecular markers (SSRs, SNPs and DarTs) have been used for identification,mapping studies and genetic variability of plant material related to the WOGB.The first part of this work deals with the identification of 14 new Algeriancultivars, recently introduced into the WOGB, by means of SSR and SNPmarkers. The comparison of their molecular profiles with 5 existing cultivars ofAlgerian, Tunisian and Marocco origin showed that they were different,enriching so the WOGB with plant material from this country. Our study showedthe great variability of Algerian germplasm as well as some cases ofhomonyms.The setting up of the first high throughput marker for olive (DArTs) has beenfurther described. These markers do not require prior sequence information.They are dominant makers, with a high reproducibility (99,8%) and lower costcompared to other markers. The use of these markers for the correctidentification of 62 cultivars belonging to WOGB has been evaluated. In additionthese markers have been differentiated 62 cultivars according to theirgeographic origin, separating Eastern and Western varieties from theMediterranean ones.The utility of DArT markers for the development of a linkage map in oneprogeny of Picual’ x ‘Arbequina’cultivars has been confirmed. A total of 23linkage groups have been obtained per each parent. Besides, some of the SSRused allowed the stablishment of some connections with several linkage groupsof both parents.Finally, the existing genetic variability in the WOGB has been evaluated bymeans of DarTs, SSRs, SNPs and agronomical traits in order to develop thefirst core collection. Five core collections including from 18 to 68 cultivars wereobtained. From these core sets, the one with 68 cultivars seems the mostappropriate for conservation studies as it retained all the alleles and traits understudy. On the other hand, the core 36 was found to be the most indicated onefor breeding given the high genetic distance and the good representativeness ofthe Mediterranean regions in a realitvely small number of cultivars.

Published

2012

125. Application of Liquid Chromatography-Ion Mobility Spectrometry-Mass Spectrometry-Based Metabolomics to Investigate the Basal Chemical Profile of Olive Cultivars Differing in Verticillium dahliae Resistance.

Author

Serrano-García I, Martakos IC, Olmo-García L, León L, de la Rosa R, Gómez-Caravaca AM, Belaj A, Serrano A, Dasenaki ME, Thomaidis NS, and Carrasco-Pancorbo A

Subjects

Ion Mobility Spectrometry methods, Plant Leaves chemistry, Plant Leaves metabolism, Plant Leaves microbiology, Chromatography, High Pressure Liquid methods, Tandem Mass Spectrometry methods, Plant Stems chemistry, Plant Stems microbiology, Plant Stems metabolism, Ascomycota chemistry, Ascomycota metabolism, Plant Roots chemistry, Plant Roots microbiology, Plant Roots metabolism, Mass Spectrometry methods, Verticillium, Olea chemistry, Olea microbiology, Olea metabolism, Plant Diseases microbiology, Metabolomics, Disease Resistance

Abstract

The limited effectiveness of current strategies to control Verticillium wilt of olive (VWO) prompts the need for innovative approaches. This study explores the basal metabolome of 43 olive cultivars with varying resistance levels to Verticillium dahliae , offering alternative insights for olive crossbreeding programmes. The use of an innovative UHPLC-ESI-TimsTOF MS/MS platform enabled the annotation of more than 70 compounds across different olive organs (root, stem, and leaf) and the creation of a preliminary compilation of TIMS CCS N2 experimental data for more reliable metabolite annotation. Moreover, it allowed the documentation of numerous isomeric species in the studied olive organs by resolving hidden compounds. Multivariate statistical analyses revealed significant metabolome variability between highly resistant and susceptible cultivars, which was further investigated through supervised PLS-DA. Key markers indicative of VWO susceptibility were annotated and characteristic compositional patterns were established. Stem tissue exhibited the highest discriminative capability, while root and leaf tissues also showed significant predictive potential.

Published

2024

126. Evaluation of genetic diversity among olive trees ( Olea europaea L.) from Jordan.

Author

Al-Kilani MA, Taranto F, D'Agostino N, Montemurro C, Belaj A, Ayoub S, Albdaiwi R, Hasan S, and Al-Abdallat AM

Abstract

This study aimed to identify and evaluate the genetic diversity of olive trees in Jordan, a country located in the eastern Mediterranean, where olive domestication originated. For this purpose, a total of 386 olive trees were analyzed, including 338 collected from two surveys (JOCC-1 and JOCC-2) across seven regions, and 48 selected accessions from the Olive Germplasm Bank of Jordan (JGBOC). These trees underwent comprehensive phenotypic and molecular characterization using different tools. Significant differences in morphological traits were detected among tested regions using the Chi -square test. Principal components analysis revealed that fruit color change and growth habit as the most discriminating traits, segregating the trees into two groups, with the first group including the Kanabisi cultivar and the second group including the Kfari Baladi cultivar. Utilizing Kompetitive Allele Specific PCR assay, two sets of informative SNPs were used for the genetic diversity analysis. Cladograms were constructed using the maximum likelihood method, revealing a consistent pattern where two clades containing identical genotypes were observed to cluster with the Kfari Baladi or Kanabisi. In addition, the SNP data was used to perform a comparative analysis with the Worldwide Olive Germplasm Bank of Córdoba, which revealed 73 unreported olive genotypes from Jordan. Genetic structure analyses using Discriminant Analysis of Principal Components (DAPC) identified four clusters with distinctive patterns of relatedness among 149 unique accessions, including 52 olive accessions from various Mediterranean countries (IOCC-3). ADMIXTURE analysis revealed four genetic clusters, consistent with the clustering observed in DAPC and cladogram analysis, indicating a high level of genetic admixture among Jordanian olive germplasm. In conclusion, the results show that olive trees in Jordan are highly diverse, providing valuable information for future conservation and management plans., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2024 Al-Kilani, Taranto, D’Agostino, Montemurro, Belaj, Ayoub, Albdaiwi, Hasan and Al-Abdallat.)

Published

2024

127. Revealing the Diversity and Complex Relationships of Croatian Olive Germplasm.

Author

Klepo T, Benčić Đ, Liber Z, Belaj A, Strikić F, Kević N, and Šatović Z

Subjects

Croatia, Bayes Theorem, Phylogeny, Genotype, Microsatellite Repeats genetics, Genetic Variation, Olea genetics

Abstract

Olive growing in Croatia has a long tradition and is of great economic and social impact. The present study includes a set of 108 tree samples (88 samples corresponding to 60 presumed cultivars and 20 trees of unnamed ones) collected from 27 groves in the entire olive growing area, and is the most comprehensive survey to be conducted in Croatia. The genetic diversity, relationships, and structures of olive plants were studied using eight microsatellite loci. All loci were polymorphic and revealed a total of 90 alleles. A total of 74 different genotypes were detected that were subjected to further diversity and genetic relationship studies. The Fitch-Margoliash tree and Bayesian analysis of population structure revealed a complex relationship between the identified olive genotypes, which were clustered into three gene pools, indicating different origins of Croatian olive germplasms. Excluding the redundant germplasms, 44 different genotypes among the sampled trees of well-known cultivars and 16 new local germplasms were identified. In addition, we provide the etymology of 46 vernacular names, which confirms that the vast majority of traditional Croatian cultivars have common and widespread names. The results presented herein underline the importance of safeguarding local cultivars and conducting continuous surveys.

Published

2024

128. New insights in the Spanish gene pool of olive ( Olea europaea L.) preserved ex situ and in situ based on high-throughput molecular markers.

Author

Gómez-Gálvez FJ, Ninot A, Rodríguez JC, Compañ SP, Andreva JU, Rubio JAG, Aragón IP, Viñuales-Andreu J, Casanova-Gascón J, Šatović Z, Lorite IJ, De la Rosa-Navarro R, and Belaj A

Abstract

In Spain, several local studies have highlighted the likely presence of unknown olive cultivars distinct from the approximately 260 ones previously described in the literature. Furthermore, recent advancements in identification techniques have significantly enhanced in terms of efficacy and precision. This scenario motivated a new nationwide prospecting effort aimed at recovering and characterizing new cultivated germplasm using high-throughput molecular markers. In the present study, the use of 96 EST-SNP markers allowed the identification of a considerable amount of new material (173 new genotypes) coming from areas with low intensification of production in different regions of Spain. As a result, the number of distinct national genotypes documented in the World Olive Germplasm Bank of IFAPA, Córdoba (WOGBC-ESP046) increased to 427. Likewise, 65 and 24 new synonymy and homonymy cases were identified, respectively. This rise in the number of different national cultivars allowed to deepen the knowledge about the underlying genetic structure. The great genetic variability of Spanish germplasm was confirmed, and a new hot spot of diversity was identified in the northern regions of La Rioja and Aragon. Analysis of the genetic structure showed a clear separation between the germplasm of southern and northern-northeastern Spain and indicated a significantly higher level of admixture in the latter. Given the expansion of modern olive cultivation with only a few cultivars, this cryptic germplasm is in great danger of disappearing. This underlines the fact that maintaining as many cultivars as possible will increase the genetic variability of the olive gene pool to meet the future challenges of olive cultivation., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Gómez-Gálvez, Ninot, Rodríguez, Compañ, Andreva, Rubio, Aragón, Viñuales-Andreu, Casanova-Gascón, Šatović, Lorite, De la Rosa-Navarro and Belaj.)

Published

2024

129. Functional Characterization of Four Olive Squalene Synthases with Respect to the Squalene Content of the Virgin Olive Oil.

Author

Hernández ML, Muñoz-Ocaña C, Posada P, Sicardo MD, Hornero-Méndez D, Gómez-Coca RB, Belaj A, Moreda W, and Martínez-Rivas JM

Subjects

Olive Oil analysis, Squalene analysis, Plant Breeding, Plant Oils, Olea genetics

Abstract

The release of new olive cultivars with an increased squalene content in their virgin olive oil is considered an important target in olive breeding programs. In this work, the variability of the squalene content in a core collection of 36 olive cultivars was first studied, revealing two olive cultivars, 'Dokkar' and 'Klon-14', with extremely low and high squalene contents in their oils, respectively. Next, four cDNA sequences encoding squalene synthases (SQS) were cloned from olive. Sequence analysis and functional expression in bacteria confirmed that they encode squalene synthases. Transcriptional analysis in distinct olive tissues and cultivars indicated that expression levels of these four SQS genes are spatially and temporally regulated in a cultivar-dependent manner and pointed to OeSQS2 as the gene mainly involved in squalene biosynthesis in olive mesocarp and, therefore, in the olive oil. In addition, the biosynthesis of squalene appears to be transcriptionally regulated in water-stressed olive mesocarp.

Published

2023

130. Genealogical tracing of Olea europaea species and pedigree relationships of var. europaea using chloroplast and nuclear markers.

Author

Mariotti R, Belaj A, de la Rosa R, Muleo R, Cirilli M, Forgione I, Valeri MC, and Mousavi S

Subjects

Phylogeny, Plant Breeding, Chloroplasts genetics, Olea genetics, Oleaceae

Abstract

Background: Olive is one of the most cultivated species in the Mediterranean Basin and beyond. Despite being extensively studied for its commercial relevance, the origin of cultivated olive and the history of its domestication remain open questions. Here, we present a genealogical and kinship relationships analysis by mean of chloroplast and nuclear markers of different genera, subgenus, species, subspecies, ecotypes, cultivated, ancient and wild types, which constitutes one of the most inclusive research to date on the diversity within Olea europaea species. A complete survey of the variability across the nuclear and plastid genomes of different genotypes was studied through single nucleotide polymorphisms, indels (insertions and deletions), and length variation., Results: Fifty-six different chlorotypes were identified among the Oleaceae family including Olea europaea, other species and genera. The chloroplast genome evolution, within Olea europaea subspecies, probably started from subsp. cuspidata, which likely represents the ancestor of all the other subspecies and therefore of wild types and cultivars. Our study allows us to hypothesize that, inside the subspecies europaea containing cultivars and the wild types, the ancestral selection from var. sylvestris occurred both in the eastern side of the Mediterranean and in the central-western part of Basin. Moreover, it was elucidated the origin of several cultivars, which depends on the introduction of eastern cultivars, belonging to the lineage E1, followed by crossing and replacement of the autochthonous olive germplasm of central-western Mediterranean Basin. In fact, our study highlighted that two main 'founders' gave the origin to more than 60% of analyzed olive cultivars. Other secondary founders, which strongly contributed to give origin to the actual olive cultivar diversity, were already detected., Conclusions: The application of comparative genomics not only paves the way for a better understanding of the phylogenetic relationships within the Olea europaea species but also provides original insights into other elusive evolutionary processes, such as chloroplast inheritance and parentage inside olive cultivars, opening new scenarios for further research such as the association studies and breeding programs., (© 2023. BioMed Central Ltd., part of Springer Nature.)

Published

2023

131. Verticillium wilt resistant and susceptible olive cultivars express a very different basal set of genes in roots.

Author

Ramírez-Tejero JA, Jiménez-Ruiz J, Serrano A, Belaj A, León L, de la Rosa R, Mercado-Blanco J, and Luque F

Subjects

Ascomycota, Plant Diseases genetics, Plant Roots genetics, Olea genetics, Verticillium

Abstract

Background: Olive orchards are threatened by a wide range of pathogens. Of these, Verticillium dahliae has been in the spotlight for its high incidence, the difficulty to control it and the few cultivars that has increased tolerance to the pathogen. Disease resistance not only depends on detection of pathogen invasion and induction of responses by the plant, but also on barriers to avoid the invasion and active resistance mechanisms constitutively expressed in the absence of the pathogen. In a previous work we found that two healthy non-infected plants from cultivars that differ in V. dahliae resistance such as 'Frantoio' (resistant) and 'Picual' (susceptible) had a different root morphology and gene expression pattern. In this work, we have addressed the issue of basal differences in the roots between Resistant and Susceptible cultivars., Results: The gene expression pattern of roots from 29 olive cultivars with different degree of resistance/susceptibility to V. dahliae was analyzed by RNA-Seq. However, only the Highly Resistant and Extremely Susceptible cultivars showed significant differences in gene expression among various groups of cultivars. A set of 421 genes showing an inverse differential expression level between the Highly Resistant to Extremely Susceptible cultivars was found and analyzed. The main differences involved higher expression of a series of transcription factors and genes involved in processes of molecules importation to nucleus, plant defense genes and lower expression of root growth and development genes in Highly Resistant cultivars, while a reverse pattern in Moderately Susceptible and more pronounced in Extremely Susceptible cultivars were observed., Conclusion: According to the different gene expression patterns, it seems that the roots of the Extremely Susceptible cultivars focus more on growth and development, while some other functions, such as defense against pathogens, have a higher expression level in roots of Highly Resistant cultivars. Therefore, it seems that there are constitutive differences in the roots between Resistant and Susceptible cultivars, and that susceptible roots seem to provide a more suitable environment for the pathogen than the resistant ones.

Published

2021

132. Defining the root endosphere and rhizosphere microbiomes from the World Olive Germplasm Collection.

Author

Fernández-González AJ, Villadas PJ, Gómez-Lama Cabanás C, Valverde-Corredor A, Belaj A, Mercado-Blanco J, and Fernández-López M

Subjects

Bacteria, Fungi, Soil Microbiology, Microbiota, Mycobiome, Olea microbiology, Plant Roots microbiology, Rhizosphere

Abstract

The bacterial and fungal communities from the olive (Olea europaea L.) root systems have not yet been simultaneously studied. We show in this work that microbial communities from the olive root endosphere are less diverse than those from the rhizosphere. But more relevant was to unveil that olive belowground communities are mainly shaped by the genotype of the cultivar when growing under the same environmental, pedological and agronomic conditions. Furthermore, Actinophytocola, Streptomyces and Pseudonocardia are the most abundant bacterial genera in the olive root endosphere, Actinophytocola being the most prevalent genus by far. In contrast, Gp6, Gp4, Rhizobium and Sphingomonas are the main genera in the olive rhizosphere. Canalisporium, Aspergillus, Minimelanolocus and Macrophomina are the main fungal genera present in the olive root system. Interestingly enough, a large number of as yet unclassified fungal sequences (class level) were detected in the rhizosphere. From the belowground microbial profiles here reported, it can be concluded that the genus Actinophytocola may play an important role in olive adaptation to environmental stresses. Moreover, the huge unknown fungal diversity here uncovered suggests that fungi with important ecological function and biotechnological potential are yet to be identified.

Published

2019