Yazar "Sarioglu, Ali" seçeneğine göre listele

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    CONTRIBUTION OF GREEN MANURE, RHIZOBIUM AND HUMIC
    (Univ Agricultural Sciences & Veterinary Medicine Bucharest, 2016) Dogan, Kemal; Sarioglu, Ali; Coskan, Ali
    Olive trees cultivation is one of the important agricultural product in especially Mediterranean, Aegean and Marmara regions of Turkey. There are about 750 million productive olive trees worldwide whereas 98% of them located in the Mediterranean region. Three major olive oil producers worldwide are Spain, Italy, and Greece, followed by Turkey. Olive Oil Mill Wastewater (OMWW) is one of the waste products of olive oil process that contains different harmful substances such as polyphenols and long-chain fatty acids which risky for soil and plants. These harmful materials are environmentally not safe, while they cause economic and ecological problems. Due to the considerable amount of OMWW occur every year, a number of approaches tested by the researchers to overcome this issue. In this study the effect of OMWW alone and combination with green manure, rhizobium and humic acid on soil microbial activity evaluated. Results gathered revealed that OMWW was reduced determined microbial activity parameters as soil respiration (CO2 production), dehydrogenase enzyme activity and microbial biomass carbon content. All applications were effective on restoring CO2 production that diminished due to OMWW; however, humic acid and green manure + humic acid applications yielded the highest benefit. Dehydrogenase activity did not differ strongly by OMWW applications. Microbial biomass carbon (MBC) values decreased rapidly by OMWW incorporation, but green manure and bacteria application together restored MBC, even higher values determined in that variant.
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    Effect of bacteria inoculation and iron application on nitrogen fixation in soybean in common soil series of Amik plain (Hatay, Turkey)
    (Parlar Scientific Publications, 2020) Dogan, Kemal; Sarioglu, Ali
    In this research, the effects of bacteria inoculation and iron application on the soybean plant, via pot experiments, using common soil series belonging to Aktas, Akkerpic, Akkuyu, Asagioba and Asi in the Amik Plain, were investigated. The experimental design consisted of two bacteria (B0: without inoculation and B1: bacteria strain nr. 110), and two iron (Fe0: without iron and Fe1: 5 mg kg-1 Fe) on selected five soil series (S1: Aktas S2: Akkerpic; S3: Akkuyu; S4: Asagioba; S5: Asi) with three replications. Plant and soil samples were taken during the blooming period. Nodulation, biomass development and the nitrogen content were analyzed in plant samples, whereas the respiration (CO2 production), dehydrogenase enzyme activity (DHA) and microbial biomass carbon (MBC) contents of the soil have been determined. The number of nodules were 4, 12, 12, 4 and 0 number.plant- 1 in Aktas, Akkerpic, Akkuyu, Asagioba and Asi, respectively. The nodule formation was not observed in non-inoculated pots. Within the inoculated applications, the plant was not developed in Asi series, therefore the nodule was not formed. In other soil series an average of five nodules per plant were determined. Bacterial inoculation and iron application together increased the nodule number up to 20 nodules per plant. The determined DHA, CO2 and MBC results were 110 ng TPF 10 gds- 1 , 15.2 mg C 100 gds- 1 . 24 h- 1 and 9.42 mg C 100 gds- 1 in bacteria inoculated variant while the values in non-inoculated plants were 90 |j,g TPF 10 gds- 1 , 14.2 mg C 100 gds- 1, 24 h-1, 7,93 mg C 100 gds- 1 , respectively. According to the general average results, bacterial inoculation and iron application have positive effects on nodule formation and nitrogen fixation in the common soil series of Amik Plain. © by PSP.
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    Öğe
    EFFECT OF BACTERIA INOCULATION AND IRON APPLICATION ON NITROGEN FIXATION IN SOYBEAN IN COMMON SOIL SERIES OF AMIK PLAIN (HATAY, TURKEY)
    (Parlar Scientific Publications (P S P), 2020) Dogan, Kemal; Sarioglu, Ali
    In this research, the effects of bacteria inoculation and iron application on the soybean plant, via pot experiments, using common soil series belonging to Aktas, Akkerpic, Akkuyu, Asagioba and Asi in the Amik Plain, were investigated. The experimental design consisted of two bacteria (130: without inoculation and B1: bacteria strain nr. 110), and two iron (Fe0: without iron and Fe1 : 5 mg kg-1 Fe) on selected five soil series (S1: Aktas S2: Akkerpic; S3: Akkuyu; S4: Asagioba; S5: Asi) with three replications. Plant and soil samples were taken during the blooming period. Nodulation, biomass development and the nitrogen content were analyzed in plant samples, whereas the respiration (CO2 production), dehydrogenase enzyme activity (DHA) and microbial biomass carbon (MBC) contents of the soil have been determined. The number of nodules were 4, 12, 12, 4 and 0 number.plant(-1) in Aktas, Akkerpic, Akkuyu, Asagioba and Asi, respectively. The nodule formation was not observed in non-inoculated pots. Within the inoculated applications, the plant was not developed in Asi series, therefore the nodule was not formed. In other soil series an average of five nodules per plant were determined. Bacterial inoculation and iron application together increased the nodule number up to 20 nodules per plant. The determined DHA, CO2 and MBC results were 110 mu g TPF 10 gds(-1), 15.2 mg C 100 gds(-1). 24 h(-1) and 9.42 mg C 100 gds(-1) in bacteria inoculated variant while the values in non-inoculated plants were 90 mu g TPF 10 gds(-1), 14.2 mg C 100 gds(-1), 24 h-1, 7,93 mg C 100 gds(-1), respectively. According to the general average results, bacterial inoculation and iron application have positive effects on nodule formation and nitrogen fixation in the common soil series of Amik Plain.
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    ORGANO-MINERAL FERTILIZER APPLICATIONS FOR SUSTAINABLE AGRICULTURE
    (Univ Agricultural Sciences & Veterinary Medicine Bucharest, 2017) Sarioglu, Ali; Dogan, Kemal; Kiziltug, Tugce; Coskan, Ali
    Intensive farm applications which were the major solution were proposed to nutrient to growing human population, damage to soil fertility, ecosystem elements and human healthy seriously. This damages come up long terms. Intensive farm applications cause to decrement of soil fertility and yield quality. While the soil reduces because of intensive farm applications human population increases every year. So intensive farm applications is not a good solution and idea for nutrient to increasing human populations. This study aimed to present solutions alternative of intensive farm applications. We propose to alternative farm applications against to intensive farm applications are organic farm (OF), organo-mineral farm (OMF). In this paper it was given some organic and chemical farm applications results to compare. Some of the results of organic and mineral applications given in this paper were studied by our research group. Some of results of this paper showed that, some of organic farm applications were increased to yield more than chemical applications. However organic applications cost is higher than other chemical or intensive farm applications. Because of the high cost and low yield of organic farming it is not prefer commonly. So that we suggested that organic and mineral (organo-mineral) applications together with suitable rate for sustainable agriculture and soil quality.