Engin YENİCE, Meltem GÜLTEKİN, Barış ERTEKİN, Züleyha KAHRAMAN

Yumurta Tavuğu Yemlerinde Solvent Ekstrakte Aspir Küspesinin Soya Yağı İle Birlikte Kullanımının Performans, Yumurta Kalitesi ve Yumurta Sarısı Yağ Asitleri Kompozisyonu Üzerine Etkileri

Bu araştırma yumurta tavuğu yemlerinde solvent ekstrakte aspir küspesinin (SM) soya yağı (SO) ile birlikte kullanımının etkilerini incelemiştir. Deneme yemleri %0 (kontrol), 4, 8 ve 12 SM olacak şekilde hazırlanmış ve yemlerin SO içeriği, sırasıyla, %0.3, 0.62, 1.9 ve 3.17 olmuştur. Toplam 216 adet ATAK-S hibrit yumurtacı tavuk, 22-52 haftalık yaşlar arasında test edilmiştir. Gruplar arasında yaşama gücü, canlı ağırlık kazancı, yumurta verimi, yumurta ağırlığı ve kütlesi, yem tüketimi, yem değerlendirme oranı ve şekil indeksi bakımından önemli farklılıklar gözlenmemiştir. SM’nin %4 ve 12 seviyeleri kabuk kırılma mukavemetini, SM’nin %8 seviyesi kabuk kalınlığını, SM’nin %8 ve 12 seviyeleri yumurta sarısı rengini kontrole göre artırmıştır. SM’nin %8 ilavesi ak yüksekliğini ve SM’nin %4 ve 8 ilavesi Haugh birimini kontrol ve %12 SM ye göre azaltmıştır. SM’nin %12 ilavesi yumurta sarısı E vitamini içeriğini diğer gruplara göre arttırmıştır. Yemdeki SM ve SO miktarı arttıkça, yumurta sarısındaki linoleik, linolenik ve dokosaheksaenoik asit miktarları artarken, palmitik asit miktarı azalmıştır. SM’nin, SO ile birlikte olumsuz etkileri olmaksızın yumurta tavuğu yemlerine %12 ye kadar ilave edilebileceği ve aynı zamanda yumurta kalitesi üzerine olumlu bir etkisinin olduğu sonucuna varılmıştır

The Effects of the Usage of Solvent Extracted Safflower Meal with Soybean Oil in the Laying Hen Diets on the Performance, Egg Quality and Egg Yolk Fatty Acid Composition

This study examined the effects of the usage of solvent extracted safflower meal (SM) with soybean oil (SO) in laying hen diets. The experimentaldiets were prepared with 0 (control), 4, 8, and 12% SM, with the SO content being 0.3, 0.62, 1.9 and 3.17%, respectively. A total of 216 ATAK-Shybrid laying hens were tested at between 22 and 52 weeks of age. No differences in liveability, body weight gain, egg production, egg weightand mass, feed intake, feed conversion ratio, and shape index were observed among the groups. SM at 4 and 12% increased eggshell breakingstrength, SM at 8% increased eggshell thickness, and SM at 8 and 12% increased egg yolk colour, compared to the control. The addition of8% SM decreased albumen height, and the addition of 4 and 8% SM decreased the Haugh unit, compared to the control and SM at 12%. SMsupplementation at 12% increased vitamin E content of the egg yolk compared to other groups. As the SM and SO content of the diet increased,the amount of palmitic acid in the egg yolk decreased, while linoleic, linolenic and docosahexaenoic acids increased. We conclude that SM couldbe used to supplement the laying hen diets at a rate of up to 12%, together with SO, with no negative effects while simultaneously having apositive impact on egg quality.

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