植酸酶对金鳟体成分及金鳟椎骨中钙、磷含量的影响

采用喷涂法和预处理两种方法,在豆粕型金鳟饲料中添加不同浓度的植酸酶,通过90 d的饲喂试验,研究植酸酶对金鳟(Oncorhynchus mykiss Walbaum)体成分及其椎骨中钙、磷含量的影响。结果显示:喷涂法和预处理法添加植酸酶的处理组与对照组相比,粗蛋白、粗脂肪的含量均有所下降;喷涂法添加植酸酶的处理组的鱼体粗灰分、磷和钙含量均高于对照组,其中,喷涂法添加1500 U/Kg植酸酶组鱼体磷含量、灰分含量和钙含量显著高于对照组(P(0.05),且此组鱼体磷高于其它试验组;喷涂法各组椎骨中粗灰分、磷含量较对照组提高显著(P(0.05),2500 U/kg植酸酶组椎骨磷含量最高,椎骨中钙含量除D1和D8组外,添加植酸酶的处理组均较对照组提高显著(P(0.05)。预处理法添加植酸酶的处理组与对照组相比,鱼体和椎骨中粗灰分、磷和钙含量均有显著提高(P(0.05),但植酸酶试验组间椎骨中粗灰分、磷含量和钙含量差异均不显著(P(0.05)。结果表明,金鳟饲料喷涂法添加植酸酶1500~2500 U/kg浓度最适,预处理法添加植酸酶500 U/kg浓度较为宜。     

植酸酶对鲤鱼生长及磷利用率的影响

选用300尾体重为50 g左右的鲤鱼鱼种,随机分为5组:对照组、Ⅰ组、Ⅱ组、Ⅲ组和Ⅳ组。对照组饲喂基础饲料,Ⅰ组饲喂每千克添加1500 U植酸酶的基础饲料,Ⅱ组饲喂每千克添加3000 U植酸酶的基础饲料,Ⅲ组饲喂每千克添加4.5 g Ca(H2PO4)2的基础饲料,Ⅳ组饲喂每千克添加8.9 g Ca(H2PO4)2的基础饲料。结果显示:饲料中添加3000 U/kg和1500 U/kg植酸酶显著地促进了鲤鱼生长,降低了饲料系数,提高了饲料中磷的利用率。与对照组相比,3000 U/kg和1500 U/kg植酸酶组鲤鱼的增重率分别提高61.06%和52.81%,鲤鱼对饲料中磷的表观消化率分别提高65.63%和61.65%,粪磷含量分别下降24.58%和22.88%。本试验表明:植酸酶可以显著地促进鲤鱼的生长和提高磷的利用率。     

无鱼粉饲料中添加磷和植酸酶对奥尼罗非鱼生长性能及体成分的影响

奥尼罗非鱼(Oreochromis niloticus×O.aureus)幼鱼的初始体重约5.0 g,试验共设5组饲料,以全鱼粉饲料为对照组(D0),以豆粕和花生粕完全替代鱼粉为试验组,其中两组为不补充磷酸二氢钙的情况下不添加植酸酶(D1)和添加植酸酶(D2),另两组为在补充磷酸二氢钙的情况下不添加植酸酶(D3)和添加植酸酶(D4)。每一饲料组设3个重复,每箱养鱼30尾,在流水系统中饲养,表观饱食投喂,投喂率为5%~6%。饲养实验周期为8周。试验结果表明,添加磷组(D3、D4)和全鱼粉组(D0)的特定生长率和饲料系数在组间差异不显著(P>0.05),但显著高于不添加磷组(D1、D2)(P<0.05);磷的表观消化率在添加植酸酶组(D2、D4)均显著高于不添加植酸酶(D1、D3),但与全鱼粉组(D0)差异不显著;鱼体粗蛋白含量在不添加磷和植酸酶组(D1)显著低于其他4组;体粗脂肪含量在不添加磷(D1、D2)组显著高于其他组;体灰分含量由高到低依次为全鱼粉组(D0)、添加磷和植酸酶组(D4)、添加磷不添加植酸酶组(D3)、不添加磷添加植酸酶组(D2)和不添加磷不添加植酸酶组(D1),且两两组间差异显著;体钙、磷、镁、锌含量和脱脂骨灰分、钙、磷含量在全鱼粉组(D0)最高。不添加磷组(D1、D2)血清磷含量显著低于其他3组,而血清碱性磷酸酶活性显著地高。试验结果说明,无鱼粉饲料中补充磷可保持奥尼罗非鱼幼鱼生长率,饲料利用和全鱼可食部分营养成分含量;同时添加植酸酶,能显著提高饲料中磷的利用率,促进磷、锌和镁在鱼体内沉积,并有进一步提高奥尼罗非鱼幼鱼生长和饲料利用的趋势。[中国水产科学,2006,13(1):112-118]     

史氏鲟幼鲟对饲料中磷的需要量

通过生长饲养试验研究史氏鲟幼鲟对饲料中磷的需要量.以Ca(H2PO4)2·H2O为磷源,配制含磷水平分别为0.18%(对照组),0.40%,0.71%,0.98%,1.38%和1.66%的6组等能等氮纯化饲料,每组饲料饲喂3个重复,每个重复饲养20尾初体质量约为4.7 g的幼鲟.经过8周的饲养后,对生长、饲料效率、成活率、幼鲟肌肉常规组成及脊椎骨灰分和钙磷含量进行分析.结果表明,随饲料中磷含量的升高,鱼体增重率、饲料效率和特定生长率显著增加(P<0.05),直至0.98%组达最大,然后随着饲料磷含量的增加,这些指标显著降低(P<0.05);试验各添加组的成活率显著高于对照组(P<0.05),但各添加组间没有显著差异(P>0.05);饲料添加磷对鱼体肌肉水分、粗蛋白质和粗脂肪含量无显著影响(P>0.05);当饲料磷含量在0.71%～1.66%之间时,脊椎骨中灰分、钙和磷含量差异不显著(P>0.05),但显著高于对照组和0.40%试验组(P<0.05).经过折线回归分析得出,为维持史氏鲟幼鲟最佳生长和骨骼磷水平,饲料中磷的需要量为0.88%～1.00%(占干饲料).     

植酸酶对3种植物性原料中植酸磷含量的影响

利用微生物植酸酶分别对3种植物性原料(豆粕、玉米蛋白粉、小麦)进行酶处理,研究不同浓度植酸酶作用下3种植物性原料中植酸磷含量的变化。3种原料分别有6组处理(植酸酶对照0 U/kg,柠檬酸对照,500U/kg,750 U/kg,1000 U/kg,1500 U/kg),每组处理3个重复。结果表明:植酸酶能够显著降低3种植物性原料中植酸磷的含量(P<0.05),同时提升有效磷的含量。通过对磷当量的分析,本试验中以植酸酶组1000 U/kg最为经济有效。植酸酶对照组中植酸磷含量也有所下降,说明柠檬酸单独对植酸起到了一定的分解作用。     

植酸酶对异育银鲫生产性能及鱼体成分的影响

选用360尾体重为(12.0±0.2)g的异育银鲫(Carassius auratus gibelio)鱼种,随机分为Ⅰ、Ⅱ、Ⅲ、Ⅳ四个组,每组设置3个重复,其中Ⅰ为对照组,饲喂基础日粮,Ⅱ、Ⅲ、Ⅳ为试验组,分别在基础日粮中添加500 U/kg、1000 U/kg、1500 U/kg的植酸酶。饲喂60 d,试验结果表明:(1)与对照组比较,添加1000 U/kg植酸酶的试验组鱼增重率提高8.8个百分点,饲料系数下降0.18,植酸磷利用率提高20.6个百分点,说明在异育银鲫鱼种配合饲料中添加适宜的植酸酶能促进鱼的生长,提高植酸磷的利用;(2)添加植酸酶各组异育银鲫鱼种的鱼体成分中,粗灰分、粗蛋白、钙、磷及部分矿物质元素(铁、铜、镍)含量显著提高,表明植酸酶能释放植酸的螯合物,促进矿物质元素在动物体内的沉积。     

饲料中添加植酸酶对南美白对虾生长及磷利用率的影响

在半精制饲料中分别添加1000IU／kg、2000IU／kg、3000IU／kg的植酸酶以及2％Ca(H2PO4)2，以不添加外源磷及植酸酶组为对照，研究以植物蛋白为主要蛋白源的饲料中添加植酸酶对南美白对虾生长和磷消化率的影响。40天的养殖实验结果表明，饲料中添加2％Ca(H2PO4)2，能提高南美白对虾的增重率，但与对照组无显著差异。饲料中添加1000IU／kg植酸酶组的南美白对虾增重率达到最高，但与其它各组没有显著差异。饲料的磷消化率在2％Ca(H2PO4)2组达到最高，蛋白质消化率在各组之间没有明显差异。综上所述，饲料中添加1000IU／kg植酸酶即能有效改善南美白对虾的生长和磷利用率，降低磷排泄。     

中草药不同投喂模式对黄鳝生长及生理生化指标的影响

以黄鳝(Monopterus albus)基础饲料为对照组,在基础饲料中添加1.0％和2.0％的复方中草药,设置4组,即对照组D1(不添加中草药,正常投喂)、试验组D2(连续投喂1.0％中草药饲料)、试验组D3(投喂1.0％中草药饲料7d,饥饿7d)、试验组D4(投喂2.0％中草药饲料7d,饥饿7d),共计4个处理.养殖试验进行90d.结果表明,各试验组均能提高黄鳝成活率和增重率,且各组间差异不显著(P＞0.05);与对照组相比,各试验组均能显著降低血清中的血糖(GLU)、甘油三酯(TG)和尿素氮(BUN)(P＜0.05),且D4组的谷草转氨酶(AST)和谷丙转氨酶(ALT)活性显著低于对照组(P＜0.05);各试验组均能显著提高血清中过氧化氢酶(CAT)、总抗氧化力(T-AOC)、溶菌酶(LSZ)活力(P＜0.05),D2和D4组补体C3活力显著高于对照组(P＜0.05);同时发现各试验组均能显著提高黄鳝脂肪酶活力(P＜0.05),除D2组淀粉酶和蛋白酶活力显著高于对照组外(P＜0.05),其他组淀粉酶和蛋白酶活力与对照组无明显差异(P＞0.05);各试验组均能显著降低黄鳝粗脂肪和灰分含量(P＜0.05),除D2组能显著提高黄鳝粗蛋白含量外(P＜0.05),其他组对黄鳝体蛋白含量影响不大(P＞0.05).当中草药添加量为1.0％时,连续投喂在各方面均优于间隔投喂,而间隔投喂2.0％的中草药能一定程度地改善黄鳝肝功能,提高其免疫力.     

添加植酸酶日粮不同磷水平和钙磷比对生长肥育猪血液生化指标和骨骼性能的影响

本试验利用饲养试验方法,研究玉米-豆粕型日粮中添加植酸酶时不同磷水平和钙磷比对生长肥育猪血清指标和骨骼性能的影响。试验选用162头20kg左右的杜长大三元杂交猪进行2×3(磷水平×钙磷比)因子饲养试验,试验分2个阶段进行,前期为生长期体重在20-60kg,后期为肥育期体重为为60-100kg。结果表明:添加植酸酶日粮磷水平对血清磷含量和碱性磷酸酶的活性影响显著(P<0.05);钙磷比对血清钙和血清磷含量的影响显著(P<0.05);添加植酸酶日粮磷水平和钙磷比对生长肥育猪骨骼性能的影响不显著(P>0.05)。在添加植酸酶条件下,降低日粮磷水平不影响猪的正常生长发育。     

吉富罗非鱼成鱼对饲料中有效磷的需要量

为获得吉富罗非鱼成鱼对饲料中有效磷的需要量,以磷酸二氢钾(KH₂PO₄)为磷源,配制含有效磷水平分别为0.15％(对照组)、0.40%、0.66%、0.91%、1.17%和1.43%的6组等氮等能的半纯化饲料,每组饲料饲喂3个重复,每个重复饲养20尾初始体质量为(184.46±8.13)g吉富罗非鱼,经过9周的饲养后,对生长性能、饲料效率、成活率、全鱼基本营养成分、脊椎骨及鳞片的磷含量进行测定。结果显示,饲料有效磷为0.66％或0.91%时,鱼体增重率和特定生长率较其它各组均显著提高(P<0.05),饲料效率显著高于对照组(P<0.05)。随着饲料有效磷含量的增加,实验鱼体的脏体指数、肝体指数和肥满度均显著降低(P<0.05),成活率无显著性变化(P＞0.05);全鱼粗蛋白、粗灰分及磷含量均显著提高(P<0.05),粗脂肪含量显著下降(P<0.05);脊椎骨和鳞片的粗灰分和磷含量均显著提高(P<0.05)。用抛物线模型拟合特定生长率与饲料有效磷含量,罗非鱼获得最大生长时,对饲料中有效磷需要量为0.85%;分别对全鱼磷含量、鳞片磷含量和脊椎骨灰分含量与饲料有效磷含量进行相关回归分析,罗非鱼对饲料中有效磷需要量分别为0.88%、1.14%、1.23%。     

虾青素和角黄素对虹鳟肌肉着色和肝脏总抗氧化能力的影响

分别在基础饲料(对照组)中添加100 mg/kg的虾青素、角黄素，混合色素(50 mg/kg虾青素+50 mg/kg角黄素)饲喂初始体重为(56.60±0.63) g的虹鳟60 d，考察虾青素和角黄素对虹鳟肌肉着色和肝脏总抗氧化能力的影响。结果显示，饲料中添加了虾青素、角黄素和混合色素后对虹鳟增重率、饲料系数及肌肉常规成分、肌肉失水率、含肉率均无显著影响(P> 0.05)。虾青素组、角黄素组和混合色素组虹鳟肌肉的比色卡得分、红度、虾青素含量和血清总类胡萝卜素含量均比对照组有显著提高(P< 0.05)；虾青素组虹鳟肌肉比色卡得分(26.25)和红度值(18.40)显著高于角黄素组(22.38, 14.13)和混合色素组(24.00, 15.70)(P< 0.05)；虾青素组虹鳟肌肉虾青素含量为4.75 mg/kg (30 d)和6.45 mg/kg (60 d)，均显著高于混合色素组的3.87 mg/kg (30 d)和5.48 mg/kg (60 d)(P< 0.05)；在虹鳟血清总类胡萝卜素含量方面，虾青素组 > 混合色素组 > 角黄素组；虾青素组、角黄素组、混合色素组虹鳟肝脏的总抗氧化能力之间无显著差异(P> 0.05)，分别为2.39 U/mg，2.25 U/mg，2.39 U/mg，均较对照组(2.03 U/mg)显著提高(P< 0.05)。上述结果表明：饲料中添加100 mg/kg虾青素、角黄素及虾青素+角黄素混合(1∶1)均能有效改善虹鳟肌肉颜色，提高肝脏总抗氧化能力，虾青素、虾青素+角黄素混合(1∶1)对虹鳟肌肉的着色效果优于角黄素。     

Top-spraying soybean meal-based diets with phytase improves protein and mineral digestibilities but not lysine utilization in rainbow trout, Oncorhynchus mykiss (Walbaum)

Two digestibility trials and two growth trials were carried out to evaluate the influence of top‐sprayed phytase on apparent digestibility coefficients (ADCs) of protein and mineral and utilization in rainbow trout fed with soybean meal‐based diets. In Trial 1, a semi‐purified diet containing 50% soybean meal was supplemented with graded levels of phytase (0, 500, 1000, 2000 and 4000 U kg^?1 diet), and fed to triplicate groups of fish. In Trial 2, commercial‐type extruded feeds containing 36% soybean meal with either 0 or 2000 U phytase kg^?1 were fed to five replicate groups of fish. Phytase clearly decreased phytic acid content of feces from 35 to 5 mg and from 34 to 14 mg phytic acid per g faecal dry matter in Trials 1 and 2 respectively. Apparent digestibility coefficient of P improved from 23% to 83% in Trial 1 and from 35% to 54% in Trial 2 by phytase. Apparent protein increased by 1.2% and 3.2%‐units by phytase in Trials 1 and 2. Zinc digestibility was significantly increased in Trial 1, but not in Trial 2. Trials 3 and 4 were conducted to evaluate the influence of phytase on dietary P (Trial 3) and lysine (Trial 4) utilization. Three diets were prepared for each trial: P (Trial 3)‐ or lysine (Trial 4)‐deficient basal diets, basal diets with phytase supplementation (2000 U kg^?1) and P (Trial 3)‐ or lysine (Trial 4)‐fortified diets. Rainbow trout (initial weight 20 g) were fed for 10 weeks using four and six replicates for Trials 3 and 4 respectively. Phytase increased P utilization in Trial 3 as demonstrated by an increase in vertebra ash from 24.1% to 45.4%, and by an increase in weight gain from 243% to 459% of the initial weight. Phytase did not increase lysine utilization, since neither protein retention nor weight gain were enhanced by phytase. Supplemental lysine increased protein retention and weight gain to 43.1% and 514%, respectively, and also decreased whole‐body lipid contents significantly from 120 to 123 g kg^?1 in fish fed the basal diet and phytase‐supplemented diet to 106 g kg^?1 in fish fed with lysine‐fortified diet.     

The Efficacy of a Novel Microbial 6‐Phytase Expressed in Aspergillus oryzae on the Performance and Phosphorus Utilization of Cold‐ and Warm‐Water Fish: Rainbow Trout,Oncorhynchus mykiss,and Nile Tilapia,Oreochromis niloticus

The efficacy and tolerance of a novel microbial 6‐phytase were investigated in rainbow trout, Oncorhynchus mykiss, and Nile tilapia, Oreochromis niloticus. Reference diets were sufficient in available phosphorus (P). The test diet limiting in available P was supplemented with phytase at 500, 1000, or 2000 phytase units/kg feed. The enzyme was effective in increasing total P apparent digestibility coefficient in relation to increasing the dose of phytase in rainbow trout and Nile tilapia. Zinc apparent digestibility improved in relation to phytase supplementation in rainbow trout. P release due to phytase supplementation ranged from 0.06 to 0.18% P/kg feed in rainbow trout and from 0.13 to 0.26% P/kg feed in Nile tilapia. A 58‐d performance trial was conducted to evaluate tolerance of fish to phytase supplementation. Dietary treatments consisted of a basal diet without phytase or supplemented with 2000 and 200,000 phytase units/kg feed. Results indicate that this novel microbial 6‐phytase is well tolerated by fish. Significant improvements for growth as well as feed conversion ratio were observed when the phytase was fed at 2000 phytase units/kg feed. This phytase is proven efficient in releasing P from phytate and could be added when plants are used for fish meal replacement in diets for salmonid and omnivorous fish.     

Corn‐expressed dietary phytase augments vertebral and scale mineral content in juvenile rainbow trout (Oncorhynchus mykiss)

Fishmeal (FM) is increasingly being replaced by plant proteins which are a relatively poor phosphorous source for mineralized tissues. To promote P availability plant‐based feedstuffs are supplemented with exogenous phytase. However, the effect of phytase on skeletal development in juvenile rainbow trout (Oncorhynchus mykiss) which have distinct mineral requirements is poorly understood. To address this juvenile trout were fed FM diet, a replacement feed (soybean meal, SBM) in which 50% (460 g kg^?1) of crude protein (from FM) was substituted with soybean‐meal or SBM supplemented with microbial or corn‐expressed phytase. Vertebral and scale morphology, remodelling and mineralization were then assessed by histomorphometric and colorimetric assays. Body weight and SGR of trout fed SBM was lower than FM fed fish with no improvement noted with any phytase supplement. Vertebral mineral content and autocentrum morphology were similar in trout fed SBM or FM and supplementation with microbial‐phytase did not enhance these parameters at any concentration. However, scale and vertebral mineral content were significantly enhanced in trout fed SBM supplemented with corn‐expressed phytase 1500 FTU kg^?1 (vertebral phosphorus P = 0.014, Ca P = 0.026; scale phosphorus P = 0.012). Thus, SBM feeds supplemented with corn‐expressed phytase could help reduce FM usage and generate a more robust skeleton less prone to deformity.     

Effects of pretreatment with microbial phytase on phosphorous utilization and growth performance of Nile tilapia (Oreochromis niloticus)

This study was to assess effects of the pretreatment in all‐plant based diets with microbial phytase on phosphorous utilization and growth performance of Nile tilapia (Oreochromis niloticus). Pretreatment trials were conducted using phytase at graded doses to determine the optimal dose of phytase. Available phosphorus (P) levels increased significantly with the increased doses of phytase and the dose of 1000 U kg^?1 was most efficient. Based on the pretreatment trials, plant based diets for Nile tilapia were formulated by pretreating with phytase at 1000 U kg^?1. Experimental diets were supplemented with graded levels of mono calcium phosphate (MCP) at 25, 18.75, 12.5, 6.25 and 0 g kg ^?1 diet. In addition, there were three controls: one phytase control, one inorganic P control and one pretreatment control. The results showed that diets pretreated with phytase gave better growth performance, feed conversion ratio and protein efficiency ratio of Nile tilapia compared with the phytase control diet and pretreatment control diet (P < 0.05). There were no significant differences in growth performance of Nile tilapia between the inorganic control diet and phytase pretreated diets supplemented with MCP at 25, 18.75 and 12.5 g kg^?1 (P > 0.05), which resulted in significantly better performance than those at 6.25 and 0 g kg^?1 (P < 0.05). Dietary interaction effects of phytase were observed for phosphorus retention efficiency and phosphorus load. Apparent digestibility coefficient of P (ADCp) was improved significantly by phytase pretreatment (P < 0.05). No significant difference was detected on ADC of crude protein among all experimental diets (P > 0.05).     

Effects of Microbial Phytase Supplementation in Corn Distiller's Dried Grain with Solubles on Nutrient Digestibility and Growth Performance of Rainbow Trout,Oncorhynchus mykiss

Abstract

Two experiments were conducted to evaluate the effects of microbial phytase in corn distiller's dried grain with solubles (DDGS) on apparent digestibility coefficients (ADCs) and growth performance of rainbow trout, Oncorhynchus mykiss. In experiment 1, DDGS was supplemented with phytase at 0,300,600,900, and 1200 FTU/kg diet. A total of 180 fish (129.1±9.3 g) were stocked into six 140-L tanks with 30 fish/tank. Fish were assigned randomly to a reference diet and each of the 5 diets containing DDGS. Yttrium oxide was used as an inert marker. Results showed that ADCs in DDGS supplemented with different dosages of phytase were: dry matter, 49.1-58.6%; crude fat, 78.9-88.9%; crude protein, 80.0-91.9%; gross energy, 50.5-66.6%; minerals, -7.3-99.7%; and amino acids: 73.9 to 96.8%. In experiment 2, abasal diet containing 15% DDGS supplemented with lysine and methionine was used to determine if trace mineral supplemental levels in rainbow trout diets could be reduced if microbial phytase was supplemented. Six diets were made with trace mineral premix supplementation at 0.1, 0.08, 0.06, 0.04, 0.02, and 0%. Phytase was not supplemented in the basal diet, but supplemented at 500 FTU/kg diet in all other diets. Ten-week results showed that there were no significant differences in fish weight gain, feed conversion ratio, and survival (P < 0.05). There were no significant differences in fish body composition and apparent nutrient retention among fish fed all diets, except that fish fed a diet without trace mineral supplementation had the lowest zinc level and the highest manganese retention. Results indicated that phytase was effective in releasing most of minerals, and that trace mineral supplementation level could be reduced when phytase was used in rainbow trout diets.     

Effect of supplemented fungal phytase on performance and phosphorus availability by phosphorus-depleted juvenile rainbow trout (Oncorhynchus mykiss), and on the magnitude and composition of phosphorus waste output

The effect of a supplemental fungal phytase on performance and phosphorus availability by juvenile rainbow trout fed diets with a high inclusion of plant based protein and on the magnitude and composition of the waste phosphorus production was tested in a 2 × 3 factorial design at a temperature of 11 °C. Two factors comprised of two dietary fungal phytase levels (0 or 1400 U kg^? 1 feed^? 1), and three dietary total phosphorus levels (0.89, 0.97 or 1.12%). All fish were acclimated to the lowest total phosphorus diet for 16 days, which included 0.29% phytate-phosphorus and no supplemental fungal phytase, to ensure that they were depleted of phosphorus prior to the feeding trial.Growth and feed conversion ratios were not significantly affected by the increasing dietary phosphorus level or supplemental fungal phytase. Phosphorus availability increased significantly as a result of phytase supplementation, reaching an upper level of 74% at an available dietary phosphorus concentration of 0.71%. Adding fungal phytase to the diets improved the availability of phytate-phosphorus from an average of 6 to 64%. The fish retained 53–79% of the ingested phosphorus, while 24–44% was recovered in the faeces. The particulate phosphorus waste output was significantly higher in faeces from fish fed diets without fungal phytase compared to fish fed phytase supplemented diets. The dissolved/suspended phosphorus waste output represented 2–13% of the ingested phosphorus, and there was a significant increase in the dissolved/suspended phosphorus waste output from fish fed the phytase supplemented diet containing 0.71% available phosphorus, suggesting that the phosphorus requirement was reached at this phosphorus level. Consistent with this, there was a substantial increase in the dissolved/suspended phosphorus waste output from fish fed the phytase supplemented diet containing 0.81% available phosphorus, suggesting that the phosphorus requirement was exceeded in this group.This study demonstrated that phytase supplementation will be advantageous to the fish and the environment if supplemented to low-phosphorus diets containing a large share of plant-derived protein. Conversely, the results demonstrated that fungal phytase should not be supplemented to diets in which the available phosphorus level already meets the requirement of the fish, as this will lead to a significant increase in the dissolved/suspended phosphorus waste output.     

Effect of replacing fish meal with soybean meal on growth,feed utilization and nitrogen and phosphorus excretion on rainbow trout (<Emphasis Type="Italic">Oncorhynchus mykiss</Emphasis>)

The effect of replacing fish meal with soybean meal (SBM) pretreated with phytase on feeds of juvenile rainbow trout was evaluated in a 90-day feeding trial. The rainbow trout (initial body weight, 4.01 ± 0.02 g) were fed five isonitrogenous (crude protein, 44.97%) and isolipidic (crude lipid, 13.42%) feeds. Diets were formulated to contain phytase-pretreated SBM replacing 0, 20, 40, 60 and 80% of fish meal protein, respectively. The results showed that there was no significant difference in weight gain (WG) among fish fed S0, S20, S40 and S60 diets; however, a significant reduction of this variable occurred when 80% of fish meal protein was replaced by phytase-treated SBM (P < 0.05). Similarly, specific growth rate and protein efficiency ratio had a similar trend with WG. Apparent digestibility coefficient (ADC) of protein and lipid in the S80 diet was significantly lower than that of the other diets, and the ADC of phosphorus significantly increased with the increase of dietary phytase-treated SBM level. No significant differences among treatments were detected for moisture, protein, lipid and ash content in whole body and muscle samples. Nitrogen and phosphorus excretion indicated that fish meal replacement by phytase-treated SBM led to an increase in nitrogen excretion, but led to a reduction in total phosphorus excretion. The results of the present study show that 60% of fish meal could be replaced by phytase-treated SBM in diets of juvenile rainbow trout without compromising weight gain or feed efficiency. A quadratic equation according to regression analysis of weight gain against dietary phytase-treated SBM level indicated that the optimal level of dietary phytase-treated SBM replacement for maximum growth was 26.90%.     

Factors affecting nutrient digestibility in rainbow trout (Oncorhynchus mykiss) fed a plant protein–based diet supplemented with microbial phytase

Factors influencing apparent digestibility coefficient (ADC) of nutrients from a plant protein–based diet supplemented with microbial phytase were investigated in a series of experiments with rainbow trout (Oncorhynchus mykiss). The influence of phytase level, water temperature, feed particle size and addition of a protease/non‐starch polysaccharidase (PNSP) enzyme cocktail were tested in a phytase‐supplemented (2000 FTU kg^?1) diet. Finally, the influence of Ca/P ratio, addition of 1,25‐hydroxycholeocalciferol, or inclusion of lactic acid (LA) in diets with and without phytase was evaluated. Addition of microbial phytase improved ADC of dry matter (DM), protein, ash and minerals (P, Ca, Mg, Fe and Zn) (P < 0.05). Reducing feed particle size potentiated the effect of phytase on P and ash ADC, as did the addition of a PNSP enzyme cocktail; the latter also significantly improved DM ADC in both control and phytase‐supplemented diets. Increasing the Ca/P ratio reduced the effect of phytase on P and ash ADC. Addition of 1,25‐dihydroxycholecalciferol and LA had no effect on DM, P and ash ADC in control diets and tended to reduce the phytase‐induced increase in P ADC.     

Mineral status of Pangasius pangasius (Hamilton) fingerlings in relation to supplemental phytase: absorption, whole-body and bone mineral content

A 60‐day feeding trial was conducted to quantify the effects of microbial phytase supplementation on apparent absorption, whole body and bone contents of minerals in Pangasius pangasius fingerlings. Seven isoprotein (35.67%) and isocaloric (3870 kcal kg^?1) diets were prepared with graded levels of supplemental phytase at 0 (T₁), 150 (T₂), 250 (T₃), 350 (T₄), 500 (T₅), 1000 (T₆) and 2000 (T₇) FTU (Phytase Units) kg^?1. Three hundred and fifteen fingerlings of P. pangasius (1.97–2.05 g) were randomly distributed in seven treatments with three replicates each. There was significant increase (P<0.05) in tissue protein content in phytase‐supplemented groups compared with the control. Apparent absorptions of calcium (Ca), phosphorus (P), magnesium (Mg), manganese (Mn), zinc (Zn), iron (Fe), potassium (K), copper (Cu) and cobalt (Co) were significantly (P<0.05) higher in the phytase‐supplemented groups than the control group. Faecal ash and P contents were significantly (P<0.05) higher in the control (T₁) than the phytase‐supplemented groups. Whole‐body contents of Ca, P, Zn, Fe, Cu and Co were significantly (P<0.05) improved by the dietary supplementation of phytase‐barring Mg and Mn. Concentrations of bone Ca, P, K, Cu and Co were significantly (P<0.05) higher in phytase‐supplemented groups. Bone ash contents (40.77–44.85%) were increased concomitantly with the increased level of phytase inclusion upto 500 FTU kg^?1 diet. It was observed that a minimum dose of 250 FTU phytase kg^?1 diet improved the mineral absorption and utilization in P. pangasius fingerlings.