@article { author = {gholami, zainab and Fattahnia, Farshid and Jahani-Azizabadi, Hossein and Taasoli, Golnaz}, title = {Investigation the Effect of Different Drying Methods of Q. persica Oak Leaves and PEG Supplementation on Concentration of Phenolic Component, Protozoa Population, and Methane Production}, journal = {Iranian Journal of Animal Science Research}, volume = {10}, number = {4}, pages = {449-462}, year = {2018}, publisher = {Ferdowsi University of Mashhad}, issn = {2008-3106}, eissn = {2423-4001}, doi = {10.22067/ijasr.v10i4.64596}, abstract = {Introduction: Zagros forests that are classified as semi-arid forests, approximately includes around 40 percent of the Iran forests. Dominant tree species of Zagros forests is Oak trees. Oak leaves are an inexpensive and available feed source for ruminant, in particular in low forage seasons. The main problem for the use of Oak leaves and fruit are their phenolic compounds and its negative effects on animal performance at high concentration. The negative effects of high concentration of tannin and phenolic compounds on ruminant performance dependent on the kind and concentration of phenolic compounds, diet composition, and animal species. There are evidence that supplementation of polyethylene glycol (PEG) at high concentration of phenolic compounds resulted in a decrease of the negative effect of phenolic compounds. In contrast, low concentration of phenolic compounds resulted in an improvement in daily gain, milk production, ovulation rate and a decrease in methane and ammonia production. The objective of this study was to investigate the effect of different drying methods of oak leaves (Q. persica) on the concentration of phenolic components of dried leaves and PEG supplementation on in vitro protozoa population and total gas and methane production. Materials and Methods: This experiment was conducted in a completely randomized design with a 4× 2 factorial arrangement of treatments to investigate the effects of dryings methods (sunshine, shadow, oven and freeze drying ) on the concentration of phenolic compounds of Oak leaves and effects of PEG supplementation on in vitro ruminal microbial fermentation of dried Oak leaves. An in vitro gas production technique was used to measure the effects of drying methods and PEG supplementation on total gas and methane production and protozoa abundance with fermentation of Oak leaves. Rumen content was obtained from two fistulated sheep (39±4.5 kg body weight) before morning feeding. The ruminal content was immediately strained through four layers of cheesecloth. Animals were fed twice daily with a 50:50 alfalfa hay: concentrate diet that formulated for maintenance requirements. In the laboratory, under anaerobic conditions, 37.5 mL of buffered rumen fluid (ratio of rumen fluid to buffer was 1:2) was added into 120 mL bottles containing 0.375 g of ground Oak leaves with (0.75g) or without PEG (12 replicates for each treatment in two runs). The buffer was prepared as proposed by McDougall. Bottles were sealed and placed in shaking water bath for 96 h at 38.6°C. Headspace gas pressure was recorded using a pressure transducer at 2, 4, 6, 9, 12, 24, 48, 72 and 96 h of the incubation. Methane production and protozoa population were determined at 24 h of incubation. The concentration of phenolic compounds, condensed and hydrolysable tannins were determined. Results and Discussion: Results of the present study showed that concentration of phenolic compounds, condensed and hydrolysable tannins affected by drying methods (P<0.01), but total tannins was not affected (P>0.01). In all experimental treatments, the protozoa population was increased by PEG supplementation (P<0.01). The highest and the lowest protozoa population were observed in freeze and oven drying methods, respectively (P<0.05). In all treatment (except for sunshine and oven drying) adding PEG resulted in a significantly increased (P<0.01) in the methane production after 24 h of incubation. It is notable that the highest and the lowest percentage of methane production were observed in freeze and oven dryings methods, respectively (P<0. 01). The effect of drying method on the gas production was not significant (P<0.05) and the addition of PEG resulted to numerically increase in gas (P>0.05). Although, gas production at 24h of incubation not affected by treatments, but results of this experiment demonstrated an increase in 96h gas production with PEG supplementation. Conclusion: The results of the present study demonstrated that the oven drying of oak leaves resulted in a further reduction in total phenolic compounds and hydrolysable tannins concentration and the most decrease in methane production due to microbial fermentation of oak leaves, relative to the control. In addition, it appears that PEG supplementation not recommendable method for decrease negative effects of tannins, because resulted in an increase in the methane production.   }, keywords = {drying methods,Oak leaves,Phenolic compound,methane production,Protozoa}, title_fa = {بررسی اثر روش‌های مختلف خشک کردن برگ بلوط گونه Q. persica و افزودن پلی‎اتیلن‎گلیکول بر غلظت ترکیبات فنولی، جمعیت پروتوزوآیی و تولید گاز متان}, abstract_fa = {هدف از انجام این پژوهش بررسی اثر روش‌های مختلف خشک کردن برگ بلوط گونه Q. persica و افزودن پلی‌اتیلن گلایکول بر غلظت ترکیبات فنولی و اثر آن برجمعیت پروتوزوا، کل گاز تولیدی و تولید گاز متان در شرایط آزمایشگاه بود. این آزمایش در قالب طرح کاملاً تصادفی و به صورت فاکتوریل دو× چهار با دوازده تکرار برای هر تیمار در دو دوره انجام شد. تیمارهای آزمایشی شامل روش‏های مختلف خشک کردن برگ بلوط (خشک کردن در آفتاب، در سایه، در آون و به روش انجماد) با و بدون پلی‎اتیلن‎گلایکول بودند. روش‌های مختلف خشک کردن بر غلظت کل ترکیبات فنولی، تانن متراکم و تانن قابل هیدرولیز اثر معنی‎داری داشت. اما روش خشک کردن بر محتوای کل تانن تاثیر معنی‎داری نداشت. در همه تیمارهای آزمایشی جمعیت پروتوزوآ تحت تاثیر پلی‎اتیلن‎گلیکول افزایش معنی‎داری را نشان دادند. بیشترین و کمترین جمعیت پروتوزوآ به‌ترتیب در تیمار خشک کردن با انجماد و آون مشاهده شد. با افزودن پلی‎اتیلن‎گلیکول تولید گاز افزایش غیر معنی‌داری نشان داد. در همه تیمارها (به‌جز برگ خشک شده در آفتاب و آون) با افزودن پلی‎اتیلن‎گلیکول تولید گاز متان به‌طور معنی‌داری افزایش یافت (6/53 درصد). بیشترین و کمترین درصد متان به‌ترتیب در تیمار خشک کردن با انجماد و آون (به‌ترتیب 14 و 7/8 درصد کل گاز تولیدی) مشاهده شد. نتایج پژوهش حاضر نشان داد که خشک کردن با استفاده از آون غلظت کل ترکیبات فنولی و تانن قابل هیدرولیز برگ بلوط و تولید گاز متان ناشی از تخمیر میکروبی برگ را نسبت به سایر روش‌های خشک کردن به میزان بیشتری کاهش داد. بنابراین با توجه به یافته‌های این مطالعه به نظر می‌رسد خشک کردن برگ بلوط با آون روش مناسب‌تری می‎باشد.}, keywords_fa = {روش‎های خشک کردن,برگ بلوط,ترکیبات فنولیک,پروتوزوآ,گاز متان}, url = {https://ijasr.um.ac.ir/article_36359.html}, eprint = {https://ijasr.um.ac.ir/article_36359_a7d18d8f182a1f74d21945910ad2f6a4.pdf} }