Results 11 to 20 of about 11,592 (223)

Fruit Quality Traits and Self- (In)compatibility Allele Status of Some Apricot (<i>Prunus armeniaca</i> L.) Seedlings Obtained by Cross-Breeding. [PDF]

Food Sci Nutr
Hybrid genotypes 6, 3, 8, and 39 having high fruit weight, an important character in table apricots, and hybrid genotypes 34, 35, 47, and 68 having high SSC, an important feature in dried apricots, were determined to be self‐compatible. Although hybrid genotype 3 was self‐incompatible, it attracted attention with its red fruit color and weight.
Karaoğlan DT, Yıldız E, Yaman M, Tunç Y, Khadivi A.   +4 more
europepmc   +2 more sources

Phylogeographic and Potential Distribution of Wild Apricot (<i>Prunus armeniaca</i>) in Xinjiang: Insights From Chloroplast/Nuclear DNA and Ecological Niche Modeling. [PDF]

Ecol Evol
This study employed integrated analyses of chloroplast DNA and nuclear genes, which revealed significant divergence in genetic structure between the two genomic compartments in Xinjiang wild apricots, reflecting complex evolutionary processes influenced by natural selection, genetic drift, and gene flow. Population history analyses indicated an absence
Li M, Wu X, Cui M, Hu T, Ma C, Yuan C, Liu C, Cao D, Li W, Jia K.   +9 more
europepmc   +2 more sources

Comparative fruit quality parameters of ‘Ninfa’ apricot (Prunus armeniaca L.) grafted on two different rootstocks in a newly established organic orchard [PDF]

, 2014
The fruit quality parameters of Prunus armeniaca L. cv ‘Ninfa’ grafted on ‘Myrobalan 29C’ (Prunus cerasifera Ehrh.) and ‘Real Fino’ apricot seedling (Prunus armeniaca L.) were analysed in an experimental orchard under organic management.
A. Daza, Bianco R., C. Santamaría, Caillavet H., Daza A., Daza A., Egea J., F.T. Arroyo, Felipe A. J., Gatti E., Gunduz O., Hernández F., Jiménez S., Khan A. S., L.F. Pérez-Romero, Leccese A., Ledbetter C.A., Leewen C., Lepsis J., M. Camacho, Milosevic T., Peel M.C., Ponti T., Pérez-Pastor A., Roussos P.A., Ruíz D., Sottile F., Tricon D., Weibel F.P.   +28 more
core   +1 more source

DNA-based S-genotyping of Japanese plum and pluot cultivars to clarify incompatibility relationships [PDF]

, 2007
Diploid japanese plum (Prunus salicina Lindl.) cultivars are commonly self-incompatible. To date, 14 incompatibility alleles (S-alleles) have been identified and labeled with alphabetical (S-a-S-n) and 5 with numeric codes (S-1, S-3-S-6).
Halász, Júlia, Hegedűs, Attila, Pedryc, Andrzej, Szabó, Zoltán   +3 more
core   +1 more source

Investigation on the pollen morphology of traditional cultivars of Prunus species in Sicily [PDF]

, 2012
In this study pollen grains of 13 cultivars and 3 rootstocks belonging to 5 species (P. armeniaca, P. domestica, P. dulcis, P. persica, P. avium) of the genus Prunus collected from North-East Sicily were examined for the micromorphological ...
GERACI, Anna, MARINO, Pasquale, Polizzano, V, SCHICCHI, Rosario   +3 more
core   +3 more sources

Multiple Events of Allopolyploidy in the Evolution of the Racemose Lineages in Prunus (Rosaceae) Based on Integrated Evidence from Nuclear and Plastid Data. [PDF]

, 2016
Prunus is an economically important genus well-known for cherries, plums, almonds, and peaches. The genus can be divided into three major groups based on inflorescence structure and ploidy levels: (1) the diploid solitary-flower group (subg.
Chang, Zhao-Yang, Chin, Siew-Wai, Haberle, Rosemarie, Jiang, Xi-Wang, Liu, Xiao-Lin, Potter, Daniel, Wen, Jun, Zhao, Liang, Zuo, Yun-Juan   +8 more
core   +4 more sources

Blood plasma levels of anterior pituitary hormones of rabbits after apricot seed exposure in vivo [PDF]

Journal of Central European Agriculture, 2016
The present study describes possible changes in plasma levels of anterior pituitary hormones induced by bitter apricot (Prunus armeniaca L.) seeds in young female rabbits in vivo. Prunus armeniaca L.
Katarína MICHALCOVÁ, Marek Halenár, Eva Tušimová, Anton Kováčik, Ľubica Chrastinová, Ľubomír Ondruška, Rastislav Jurčík, Adriana Kolesárová   +7 more
doaj   +1 more source

The content of phenolic compounds in plant generative organs of cherry-plum and apricot varieties with different susceptibility to Sclerotinia (Monilinia) laxa

Plant Varieties Studying and Protection, 2012
The high content of phenolic compounds (quercetin-3-O-glycoside, izoramnetine-3-O-glycoside, 4'-metoxykempferol-3-O-glycoside, 4'-metoxyqvercetine-3-0-glycoside, apigenine and luteoline) in flowers of Prunus cerasifera Ehrh.
В. М. Горіна, О. О. Ріхтер, Г. П. Зайцев   +2 more
doaj   +1 more source

Proteomic analysis of apricot fruit during ripening [PDF]

, 2012
Ripening of climacteric fruits involves a complex network of biochemical and metabolic changes that make them palatable and rich in nutritional and health-beneficial compounds.
Arena, S, D'Ambrosio, C, Marra, M, Novi, G, Rocco, M, Scaloni, A, Verrillo, F, Viscosi, V   +7 more
core   +1 more source

Re-description of Bdella muscorum Ewing (Acari: Bdellidae) from Western Iran

Persian Journal of Acarology, 2018
This paper presents the re-description of Bdella muscorum Ewing, 1909, collected from soil and litter under apricot trees, Prunus armeniaca L. (Rosaceae), Hamedan region, Iran. Also, a key to Iranian Bdella species is provided.
Amir Hossein Eghbalian, Mohammad Khanjani   +1 more
doaj   +1 more source