57 research outputs found

    Essential Oils and Biological Activities of <i>Eucalyptus falcata</i>, <i>E. sideroxylon</i> and <i>E. citriodora</i> Growing in Tunisia

    No full text
    Many plants are able to synthesize essential oils (EOs), which play key roles in defense against weeds, fungi and pests. This study aims to analyze the chemical composition and to highlight the antioxidant, antimicrobial and phytotoxic properties of the EOs from Eucalyptus falcata, E. sideroxylon and E. citriodora growing in Tunisia. EOs were analyzed by gas chromatography coupled to mass spectrometry (GC/MS) and their antioxidant properties were determined by total antioxidant capacity (TAC), DPPH and ABTS assays. The phytotoxic potential was assessed against weeds (Sinapis arvensis, Phalaris canariensis) and durum wheat crop (Triticum durum) and compared to chemical herbicide glyphosate. The antifungal activity was investigated in vitro against eight target fungal strains. All EOs displayed a specific richness in oxygenated monoterpenes (51.3–90%) and oxygenated sesquiterpenes (4.8–29.4%), and 1,8-cineole, citronellal, citronellol, trans-pinocarveol, globulol, spathulenol and citronellyl acetate were the main constituents. Eucalyptus EOs exhibited remarkable antioxidant activity and E. citriodora oil exhibited significant activity when compared with E. falcata and E. sideroxylon EOs. The phytotoxic potential of the tested oils had different efficacy on seed germination and the growth of seedlings and varied among tested herbs and their chemical composition variability. Their effectiveness was better than that of glyphosate. At the post-emergence stage, symptoms of chlorosis and necrosis were observed. Furthermore, a decrease in chlorophyll and relative water content, electrolyte leakage and high levels of MDA and proline were indicators of the oxidative effects of EOs and their effectiveness as bioherbicides. Moreover, all the EOs exhibited moderate fungitoxic properties against all the tested fungal strains. Therefore, according to the obtained results, Eucalyptus EOs could have potential application as natural pesticides

    Improvement of the Production of Entomopathogenic Proteases of Bacillus thuringiensis. K. Ennouri, R. Ben Ayed, H. Ben Hassen, H. Azzouz, and M.A. Triki. (Tunisia)

    No full text
    Bacillus thuringiensis (Bt) is a spore forming bacterium that produces an insecticidal crystalline protein (ICP) making it a successful biopesticide. The ICPs are also referred to as Cry proteins and contain delta-endotoxins which cause mortality of insects belonging to different orders such as Diptera, Coleoptera and Lepidoptera. Bt subspecies produce also proteases which affect their entomotoxicity toward targeted insects as proteolytic activities are strongly associated with Bt crystal protein. Statistical techniques were applied to optimize the fermentation medium composition for the production of bacterial proteases in shake-flask cultures. An experimental statistical design was performed to evaluate the effects of different components on the concentration of proteolytic enzymes. Preliminary results showed that starch and K2HPO4 are able to increase Bacillus sp. protease production. In order to obtain more accurate results, interactions between ingredients were also studied. In concordance with coefficient of determination (R²) value, considered as the most important criterion for predictive model success, the best model demonstrated the effect of interactions and allowed precise prediction of protease production. In fact, K2HPO4, KH2PO4, MgSO4, FeSO4 as well as Soybean meal × starch and MnSO4 × starch interactions were shown to have active action on protease production. This method revealed that limited number of experiments allowed useful results

    MOLECULAR CHARACTERIZATION OF WILD GRAPES FROM NORTHEASTERN PART OF TURKEY

    No full text
    Kupe M., S. Ercisli, T. Jovanovic - Cvetkovic, S. P. Eyduran, R. B. Ayed (2021). Molecular characterization of wild grapes from northeastern part of TurkeyGenetika, Vol 53, No.1,93 -102

    Artificial Intelligence to Improve the Food and Agriculture Sector

    No full text
    The world population is expected to reach over 9 billion by 2050, which will require an increase in agricultural and food production by 70% to fit the need, a serious challenge for the agri-food industry. Such requirement, in a context of resources scarcity, climate change, COVID-19 pandemic, and very harsh socioeconomic conjecture, is difficult to fulfill without the intervention of computational tools and forecasting strategy. Hereby, we report the importance of artificial intelligence and machine learning as a predictive multidisciplinary approach integration to improve the food and agriculture sector, yet with some limitations that should be considered by stakeholders

    Morphological and Biochemical Diversity Among Autochthonous Grape Cultivars Morphologische und biochemische Vielfalt bei autochthonen Rebsorten

    No full text
    Northeastern part of Turkey is rich in terms of autochthonous grape cultivars. In the region Yusufeli district has special importance for historical cultivation of grapevine. This small district has over fourteen local grape cultivars. Present study describe morphological and biochemical characteristics of nine autochthonous grape cultivars grown in Yusufeli district in Turkey. The standard Turkish grape cultivar 'Cavus' was also included experiment to make comparison with local ones. Bunch size, berry color, berry shape and usage are the searched main morphological characteristics. Phenolic compounds, organic acids, vitamin C and specific sugars were the main biochemical parameters. We found a wide variation among both morphological and biochemical characteristics. The cultivars showed low to medium bunch size. Chlorgenic acid (2.231-4.811 & x202f;mg/L), syringic acid (1.027-5.426 & x202f;mg/L) and rutin (1.013-1.129 & x202f;mg/L) were found the highest content in berries of cultivars. As expected, tartaric acid that characteristic for grape berries was the dominant (ranged from 1.826 to 3.336 & x202f;g/L) and followed by malic acid (ranged from 1.089 to 2.344 & x202f;g/L). The all autochthonous grape cultivars had glucose the highest concentration as major sugar and followed by fructose. It can be concluded that morphological and biochemical characteristics analyzed could be useful to give information about selection of the promising grape cultivars for breeders

    Foreword

    No full text
    How could privacy play a key role in protecting digital identities? How could we merge privacy law, policies, regulations and technologies to protect our digital identities in the context of connected devices and distributed systems? In this book, the author addresses major issues of identity protection and proposes a service-oriented layered framework to achieve interoperability of privacy and secure distributed systems. The framework is intended to distill privacy-related digital identity requirements (business interoperability) into a set of services, which in turn can be implemented on the basis of open standards (technical interoperability). The adoption of the proposed framework in security projects and initiatives would decrease complexities and foster understanding and collaborations between business and technical stakeholders. This work is a step toward implementing the author's vision of delivering cyber security as a set of autonomous multi-platform hosted services that should be available upon user request and on a pay-per-use basis

    The Tunisian stock market before invoking Article 80 of the Constitution: the (in)direct impact of government interventions during the sanitary crisis

    No full text
    Purpose – The purpose of this study is to investigate the impact of government policies adopted by the Tunisian government to cope with the COVID-19 sanitary crisis on stock market return. Design/methodology/approach – The author uses daily data from March 2, 2020, to July 23, 2021. Findings – The author finds that policies interventions have a negative impact on Tunisia's stock market, particularly stock market returns due to stringency, confinement and health measures. Also, Government announcements regarding economic has a negative impact on Tunisia's stock market but this impact is insignificant. By conducting an additional analysis, the author shows that the government interventions policies amplify the negative effect of COVID-19 on stock returns. Research limitations/implications – These results will be useful for policy authorities seeking to consider the advantages and drawbacks of government measures. Finally, a legislative proposal about the audit of public debt should be included in the Constitution to spur Tunisia's economic and social recovery. Originality/value – This study contributes to the related literature in two ways: First, it is the first study to examine the impact of government actions on stock market performance. Second, it bridges a gap in the literature by investigating the case of Tunisia, because most studies focus on developed and emerging economies

    Evaluation of Variability in Tunisian Olea europaea L. Accessions using Morphological Characters and Computational Approaches

    No full text
    The olive trees (Olea europaea L.) have been cultivated for millennia in the Mediterranean basin and its oil has been an important part of human nutrition in the region. In order to distinguish between olive accessions, morphological and biological characters have been widely and commonly used for descriptive purposes and have been used to characterize olive accessions. A comparative study of morphological characters of olive accessions grown in Tunisia was carried out and analyzed using Bayesian Networks (BN) and Principal Components Analysis (PCA). The obtained results showed that averages of fruit and kernel weights were 2.27 grams and 0.41 grams, respectively.  Besides, a relatively moderate level of variation (51.22%) being explained by four Principal components. BN revealed that geographical localisation plays a role in the increase of tree habit, size of lenticels and leaf shape. A dendrogram has been carried out in the aim to classify studied olive accessions. We proposed a novel method of analysis based on the three-step scheme, in which first the data set is clustered, then olive tree features are evaluated. The studied accessions can be divided into four main groups by cutting the dendrogram at a similarity value of 0.645. Different relationships are studied and highlighted, and finally the collected features are subjected to a global principal component analysis. Obtained results confirmed that core surface was negatively correlated with geographical location (r = -0.52, p&lt;0.05) and maturation period r = -0.539, p&lt;0.05). Number of lenticels was positively correlated to lenticels size (r = 0.632, p&lt;0.05). Core shape had a negative correlation with fruit shape (r = -0.759, p&lt;0.05). On the basis of these findings, this research confirmed that morphological markers are a preliminary tool to characterize olive oil accessions.</jats:p

    Contamination Assessment of Durum Wheat and Barley Irrigated with Treated Wastewater through Physiological and Biochemical Effects and Statistical Analyses

    No full text
    The present work focused on the impact of crop irrigation by treated wastewater (TWW) on soil fertility, in germination, and growth of two species of cereals (T. turgidum and H. vulgare). This investigation was conducted at the germination stage (controlled condition) and in pots containing a soil irrigated with wastewater in comparison with controlled soil. Germination rate, vigor index, seedling growth, total fresh mass, chlorophyll content, proline, ascorbate peroxidase (APX), guaiacol peroxidase (GPX), and catalase (CAT) activities were measured. Similar effects were shown on both species which emphasize the important role of antioxidant enzymes in the defense against oxidative stress induced by prolonged reuse of TWW. The disturbing effect of the reuse TWW on soil fertility, germination, and development of young plants (T. turgidum and H. vulgare) was linked to the presence of micropollutants in TWW. Data were analyzed by R language using a nonparametric statistical hypothesis test. These have caused the disorganization of many physiological mechanism targets, especially growth disorders observed under different abiotic stress conditions. In conclusion, high salt and heavy metal concentrations contained in the TWW are the major constraints related to the reuse of TWW. Hence, repetitive irrigation with this water can induce, at long term, soil contamination which can limit plant production and crop contamination
    corecore