This study was carried out to study the effect of adding different levels of date palm seed (Phoentix dactyliJProus) powder in the diet of common carp (Cyprinus carpio) at fish laboratory of Animal Production Depa...This study was carried out to study the effect of adding different levels of date palm seed (Phoentix dactyliJProus) powder in the diet of common carp (Cyprinus carpio) at fish laboratory of Animal Production Department, College of Agricultural Sciences, Sulaimani University, Sulaimani, Iraq. The actual experimental feeding trials were conducted for 70 d and the adaptation period for 21 d. A total of 81 common carp fingerlings weighted 62 ± 2 g were divided into three experimental groups. The control treatment T1 was with 0 g date palm seed, T2 with 2.5 g date palm seed per kg diet and T3 with 5 g date palm seed per kg diet. Each treatment was in three replicates in which three common carp fingerlings were stocked in each aquarium which fed the experimental diets twice daily. The results indicated that weight gain (WG) and specific growth rate (SGR) in the third treatment (T3) group were significantly higher than those of fish fed control diets. T2 consumed more diet than other treatments with 306.940 g with higher feed conversion ratio (FCR); T3 was higher significantly in food efficiency. No significant (P 〈 0.05) differences obtained from consumed protein while the protein efficiency ratio was significantly higher in T3 with 319.323. Control was higher significantly in flesh weight without viscera with the third treatment; in flesh weight without head and viscera each the control and the second treatment was significantly higher than the third treatment. As a conclusion, the date palm seeds powder have a positive effect on growth performance of common carp.展开更多
Recent research often lauds the services and beneficial effects of host-associated microbes on animals.However,hosting these microbes may come at a cost.For example,germ-free and antibiotic-treated birds generally gro...Recent research often lauds the services and beneficial effects of host-associated microbes on animals.However,hosting these microbes may come at a cost.For example,germ-free and antibiotic-treated birds generally grow faster than their conventional counterparts.In the wild,juvenile body size is correlated with survival,so hosting a microbiota may incur a fitness cost.Avian altricial nestlings represent an interesting study system in which to investigate these interactions,given that they exhibit the fastest growth rates among vertebrates,and growth is limited by their digestive capacity.We investigated whether reduction and restructuring of the microbiota by antibiotic treatment would:(i)increase growth and food conversion efficiency in nestling house sparrows(Passer domesticus);(ii)alter aspects of gut anatomy or function(particularly activities of digestive carbohydrases and their regulation in response to dietary change);and(iii)whether there were correlations between relative abundances of microbial taxa,digestive function and nestling growth.Antibiotic treatment significantly increased growth and food conversion efficiency in nestlings.Antibiotics did not alter aspects of gut anatomy that we considered but depressed intestinal maltase activity.There were no significant correlations between abundances of microbial taxa and aspects of host physiology.Overall,we conclude that microbial-induced growth limitation in developing birds is not driven by interactions with digestive capacity.Rather,decreased energetic and material costs of immune function or beneficial effects from microbes enriched under antibiotic treatment may underlie these effects.Understanding the costs and tradeoffs of hosting gut microbial communities represents an avenue of future research.展开更多
文摘This study was carried out to study the effect of adding different levels of date palm seed (Phoentix dactyliJProus) powder in the diet of common carp (Cyprinus carpio) at fish laboratory of Animal Production Department, College of Agricultural Sciences, Sulaimani University, Sulaimani, Iraq. The actual experimental feeding trials were conducted for 70 d and the adaptation period for 21 d. A total of 81 common carp fingerlings weighted 62 ± 2 g were divided into three experimental groups. The control treatment T1 was with 0 g date palm seed, T2 with 2.5 g date palm seed per kg diet and T3 with 5 g date palm seed per kg diet. Each treatment was in three replicates in which three common carp fingerlings were stocked in each aquarium which fed the experimental diets twice daily. The results indicated that weight gain (WG) and specific growth rate (SGR) in the third treatment (T3) group were significantly higher than those of fish fed control diets. T2 consumed more diet than other treatments with 306.940 g with higher feed conversion ratio (FCR); T3 was higher significantly in food efficiency. No significant (P 〈 0.05) differences obtained from consumed protein while the protein efficiency ratio was significantly higher in T3 with 319.323. Control was higher significantly in flesh weight without viscera with the third treatment; in flesh weight without head and viscera each the control and the second treatment was significantly higher than the third treatment. As a conclusion, the date palm seeds powder have a positive effect on growth performance of common carp.
基金Funding was provided by the National Science Foundation(IOS1354893 to W.H.K.)the National Institutes of Health(T32DK007673 Training Grant to K.D.K.)grants from Consejo Nacional de Investigaciones Científicas y Técnicas PIP 834 and UNSL CyT 9502 to E.C.V.
文摘Recent research often lauds the services and beneficial effects of host-associated microbes on animals.However,hosting these microbes may come at a cost.For example,germ-free and antibiotic-treated birds generally grow faster than their conventional counterparts.In the wild,juvenile body size is correlated with survival,so hosting a microbiota may incur a fitness cost.Avian altricial nestlings represent an interesting study system in which to investigate these interactions,given that they exhibit the fastest growth rates among vertebrates,and growth is limited by their digestive capacity.We investigated whether reduction and restructuring of the microbiota by antibiotic treatment would:(i)increase growth and food conversion efficiency in nestling house sparrows(Passer domesticus);(ii)alter aspects of gut anatomy or function(particularly activities of digestive carbohydrases and their regulation in response to dietary change);and(iii)whether there were correlations between relative abundances of microbial taxa,digestive function and nestling growth.Antibiotic treatment significantly increased growth and food conversion efficiency in nestlings.Antibiotics did not alter aspects of gut anatomy that we considered but depressed intestinal maltase activity.There were no significant correlations between abundances of microbial taxa and aspects of host physiology.Overall,we conclude that microbial-induced growth limitation in developing birds is not driven by interactions with digestive capacity.Rather,decreased energetic and material costs of immune function or beneficial effects from microbes enriched under antibiotic treatment may underlie these effects.Understanding the costs and tradeoffs of hosting gut microbial communities represents an avenue of future research.
