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1.
Daniel J. Joffe Roxana Lelewski J. Scott Weese Jamie Mcgill-Worsley Catharine Shankel Sonia Mendonca Tara Sager Michael Smith Zvonimir Poljak 《The Canadian veterinary journal. La revue veterinaire canadienne》2016,57(1):46-51
This study investigated the association between presence of respiratory pathogens and development of Canine Infectious Respiratory Disease Complex (CIRDC) in dogs in 5 Canadian small animal clinics. In total, 86 dogs were tested using a commercial PCR respiratory panel; 64 dogs were considered as cases and 22 were control dogs matched by veterinary clinic. No control animals (0/22) were positive for canine parainfluenza virus (CPIV), whereas 27/64 (42%) CIRDC cases were positive. Furthermore, 81% of case dogs tested positive for Mycoplasma cynos, compared with 73% of control dogs. Canine respiratory corona virus (CRCoV) was detected in no control dogs compared with 9.4% of clinical dogs. No animals were positive for any influenza virus type A present in the diagnostic panel. Presence of CPIV was associated (P < 0.01) with the occurrence of CIRDC after adjustment for demographic factors and presence of CRCoV (P = 0.09). 相似文献
2.
Julia Cartelle Anna Pedr Roxana Savin Gustavo A. Slafer 《European Journal of Agronomy》2006,25(4):365-371
Average grain weight is a major yield component contributing to its variation, especially in Mediterranean regions where grain weight is frequently exposed to terminal stresses affecting grain growth. Most of the literature agrees that wheat grain growth is hardly limited by the source. However, no source–sink ratios studies seem to have been conducted in the Mediterranean region to determine to what degree wheat grain growth is actually limited by the source in these particular regions. We conducted two field experiments in Catalonia (north-eastern Spain), where an old cultivar (Anza) and a more recently released one (Soissons) were sown in a range of different nitrogen and water availabilities and sowing dates. This was to analyse the degree of source limitation for grain growth. Sink size was modified by removing half of the spikelets c. 10 days after anthesis, virtually doubling the availability of assimilates per grain effectively growing.
Trimming the spikes did not produce significant changes in grain growth rate or duration of grain filling. Consequently, grain weight did not respond noticeably to the reduction in sink demand and any eventual response has been far from representing a strong competition among grains during grain filling. 相似文献
3.
Gustavo R. Rodríguez Javier H. Pereira da Costa Damian D. Tomat Guillermo R. Pratta Roxana Zorzoli Liliana A. Picardi 《Scientia Horticulturae》2011
The tomato fruit quality results of biochemical and physiological changes that occur during the ripening process. Although, the pericarp total protein profiles are less polymorphic than DNA-based markers the polymorphism in those could be directly associated with fruit quality traits. The aim of this work was to identify associations between polymorphic polypeptides from fruit pericarp at two ripening stages and fruit quality traits evaluated in two segregating populations of tomato. A cross between a normal ripening cultivar of Solanum lycopersicum (C, Caimanta) and a genotype carrying the nor (non ripening) gene (N) as well as a cross between Caimanta and a cherry type tomato of S. lycopersicum var. cerasiforme (Ce) showed genetic variance for several fruit quality traits such as fruit weight, shape, solids soluble content, acidity, color and fruit shelf life. The quantitative variations observed at phenotypic level had correspondence with the polymorphism detected in the protein profiles. Indeed, the polymophic polypeptides associated with quality fruit traits and fruit shelf life would be useful to assist tomato breeding programs as protein molecular markers. 相似文献
4.
Claudia S. Benimeli Analía Medina Carolina M. Navarro Roxana B. Medina María J. Amoroso María I. Gómez 《Water, air, and soil pollution》2010,210(1-4):365-370
In the present study, the growth and the Cu2+accumulation by roots, shoots and leaves of Zea mays were examined using copper sulphate in the range of 10?4 to 10?2 M. Plants of Z. mays did not show inhibition of growth in the presence of 10?4 to 10?2 M Cu2+; however, it was observed growth effects on root when different Cu2+ solution concentrations were used. Only the seedlings exposed to 10?2 M exhibited substantial root growth reduction, yielding only 56% of length with respect to the control. Seedlings exposed to 10?4 M Cu2+ exhibited 16% and 42% growth increase in shoots and leaves, respectively, when compared with the controls. The seedlings treated with 10?3 and 10?2 M Cu2+ were inhibited in shoot and leaf growth. The fresh weights in roots, shoots and leaves significantly decreased at 10?2 M Cu2+. The tolerance index, based on root length, was not significantly different for the three different treatments with copper. However, the total accumulation rate was very low at 10?4 and 10?3 M compared to 10?2 Cu treatments. The capacity of copper accumulation by roots, shoots and leaves of Z. mays plants increased concomitant to the copper concentration, arriving to 382 times more in roots, 157 in shoots and only 16 in leaves, all compared to the controls. Cu could be accumulated by roots, shoots and leaves when the initial concentrations were 10?3 and 10?4 M. However, when it was 10?2 M, the metal could not be accumulated by leaf and shoot levels; the roots could increase their copper accumulation capacity three times compared to the control. Z. mays has potential ability to accumulate Cu without being overly sensitive to Cu toxicity. 相似文献
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6.
Ordóñez RM Zampini IC Rodríguez F Cattaneo F Sayago JE Isla MI 《Journal of agricultural and food chemistry》2011,59(16):8655-8660
In this study, antioxidant activities in free-radical-mediated oxidative systems and the genotoxic/antigenotoxic effects of two proteins with molecular mass around 17 kDa, purified from Solanum betaceum fruits (cyphomine) and Solanum tuberosum tubers (solamarine), were investigated. Both proteins inhibited uric acid formation with IC(50) values between 55 and 60 μg/mL, and both proteins were able to reduce oxidative damage by scavenging hydroxyl radicals and superoxide anion in a dose-dependent manner. Furthermore, the DPPH? reduction assay showed SC(50) values of 55-73 μg/mL. Cyphomine and solamarine were able to retain their antioxidant activity after heat treatment at 80 °C for 15 min. Allium cepa and Salmonella /microsome assays showed no genotoxic and mutagenic effects. Solamarine showed an antimutagenic effect against a direct mutagen (4-nitro-o-phenylenediamine). Consequently, the present study showed that the investigated proteins are promising ingredients for the development of functional foods with a beneficial impact on human health and an important source for the production of bioactive peptides. 相似文献
7.
Cytoplasmic effects on the regeneration ability of sunflower 总被引:1,自引:0,他引:1
Highly varible organogenic regeneration has been obtained in sunflower, depending upon culture conditions, genotype and their interactions and now the effect of cytoplasm upon regeneration ability has been analysed. Six sunflower inbred lines in their male-sterile and malefertile forms were evaluated in vitro : HA89, GP762, HA300, RK416, RK456, and KLM280. The basal medium was agar solidified Murashige and Skoog (MS) medium supplemented with plant hormones: KIN 2mg/1 + IAA 1 mg/1 (Ml); BA 0.5mg/1 4- IAA 0.5mg/1 (M2). Cotyledons of mature seeds were used as explants. Regeneration ability (R) was evaluated on day 30 after initiation of culture. Significant differences were observed between male-sterile and male-fertile forms of some inbred lines for R on M2 medium. The presence of interaction among the factors line-cytoplasm-regeneration on M2 was demonstrated by using a G-test. This nucleus-cytoplasm interaction affects the regeneration ability of this species and should be taken into account when using tissue culture for crop improvement. 相似文献
8.
Beet yellows virus (BYV), beet mild yellowing virus (BMYV), beet chlorosis virus (BChV), and beet mosaic virus (BtMV) cause virus yellows (VY) disease in sugar beet. The main virus vector is the aphid Myzus persicae. Due to efficient vector control by neonicotinoid seed treatment over the last decades, there is no current knowledge regarding virus species distribution. Therefore, Europe-wide virus monitoring was carried out from 2017 to 2019, where neonicotinoids were banned in 2019. The monitoring showed that closterovirus BYV is currently widely spread in northern Europe. The poleroviruses BMYV and BChV were most frequently detected in the northern and western regions. The potyvirus BtMV was only sporadically detected. To study virus infestation and influence on yield, viruses were transmitted to sugar beet plants using viruliferous M. persicae in quadruplicate field plots with 10% inoculation density simulating natural infection. A plant-to-plant virus spread was observed within 4 weeks. A nearly complete infection of all plants was observed in all treatments at harvest. In accordance with these findings, a significant yield reduction was caused by BMYV and BChV (−23% and −24%) and only a moderate reduction in yield was observed for BYV (−10%). This study showed that inoculation at low densities mimics natural infection, and quick spreading induced representative yield effects. Within the background of a post-neonicotinoid era, this provides the basis to screen sugar beet genotypes for the selection of virus tolerance/resistance and to test the effectiveness of insecticides for the control of M. persicae with a manageable workload. 相似文献
9.
Yuxin Miao David J. Mulla Gyles W. Randall Jeffrey A. Vetsch Roxana Vintila 《Precision Agriculture》2009,10(1):45-62
The chlorophyll meter (CM) has been commonly used for in-season nitrogen (N) management of corn (Zea mays L.). Nevertheless, it has limited potential for site-specific N management in large fields due to difficulties in using it
to generate N status maps. The objective of this study was to determine how well CM readings can be estimated using aerial
hyper-spectral and simulated multi-spectral remote sensing images at different corn growth stages. Two field experiments were
conducted in Minnesota, USA during 2005 involving different N application rates and timings on a corn-soybean [Glycine max (L.) Merr.] rotation field and a corn-corn rotation field. Four flights were made during the growing season using the AISA
Eagle Hyper-spectral Imager and CM readings were collected at four or five different growth stages. The results indicated
that single multi-spectral and hyper-spectral band or vegetation index could explain 64–86% and 73–88% of the variability
in CM readings, respectively, except at growth stage V9 in the corn-soybean rotation field where no band or vegetation index
could explain more than 37% of the variability in CM readings. Multiple regression analysis demonstrated that the combination
of 2–4 broad-bands or 3–8 narrow-bands could explain 41–92% or 61–94% of the variability in CM readings across the two fields
and different corn growth stages investigated. It was concluded that the combination of CM readings with high spatial resolution
hyper-spectral or multi-spectral remote sensing images can overcome the limitations of using them individually, thus offering
a practical solution to N deficiency detection and possibly in-season site-specific N management in large continuous corn
fields or at later stages in corn-soybean rotation fields. 相似文献
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