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适当的应激反应能使机体的生理环境发生稳定性改变,产生新的适应。但过强或时间过长的应激,使机体失去适应能力,从而出现衰竭现象和病理状态。1 应激因素及其危害1.1 环境因素引起的应激1.1.1 热应激和冷应激外界温度在10~32℃范围内鸡的体温可维持正常,但高于32℃或低于10℃就会出现热应激或冷应激。热应激时鸡呼吸加快,血液中H+浓度降低,严重时发生呼吸性碱中毒;血钙、血钾、血磷、血糖浓度下降;肾上腺释放出的糖皮质激素增加。鸡的行为也发生变化,表现为采食量减少等,新陈代谢降低进而影响生产性能。热应激使鸡的免疫力下降… 相似文献
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29周龄单冠白来航产蛋鸡,给予33、37和41℃维持6小时的热应激时,对母鸡羽毛喷水分别每隔90、60或45分钟进行一次,可使热应激的体温维持在42.1℃以下,血液pH和二氧化碳分压(P CO_2)均不超出鸡在25℃环境温度时所测量到的正常范围.但是.未喷水的阳性对照鸡在上述热应激时体温均明显高于喷水鸡(P<0.05),血液pH在33和37℃热应激时及PCO_2在37和41℃热应激时亦分别明显高于或低于喷水鸡(P<0.05).在37℃维持6小时的热应激时,应用15、25和35℃的水分别喷羽毛,15℃的水减少热应激鸡体温上升的效果明显(P<0.05)好于25和35℃的水.这些结果表明,羽毛喷水时产蛋鸡有良好抗热应激效果。 相似文献
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鸡生长发育最适宜的环境温度为16℃~23℃,当环境温度高于28℃时,就会发生热应激综合征,丘脑下部采食中枢部分受到抑制,新陈代谢和正常生理功能发生紊乱,从而导致采食量减少,生长发育和饲料转化率降低,生长发育减慢,产蛋率下降,蛋重变轻,蛋壳变薄;当外界气温高达32℃以上时,会引起鸡体内血液温度升高,血流量增加,从而进一步促使鸡体温的再度升高,出现晕眩、虚脱、惊厥死亡。 相似文献
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热应激是在炎热气候条件下,引起肉鸡机体产生的特异反应。当外界气温超过适宜范围的上限时,鸡不能维持其正常的体温,表现轻者影响其代谢,重者虚脱而死亡。在炎热季节里,肉鸡养殖发生热应激是普遍存在并急需解决的难题。 1 生理机能变化 肉鸡的适温度是8~12℃,当环境温度过高,肉鸡获得的总热能超过散热量时,热平衡受到破坏,体温上升,出现热应激。 相似文献
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热应激是指鸡在高温环境下,由于体温调节及生理机能趋于紊乱而发生的一系列异常反应,对鸡的采食量、生产性能、饲料转换率等造成不同程度的影响,甚至鸡出现热休克和死亡。1热应激产生的原因主要有3方面原因:①夏季高温天气,②规模化养殖,饲养密度大;③舍内通风不良。2热应激对鸡的危害2.1干扰鸡只的正常生理机能。热应激可使鸡的心跳加快,血压下降、呼吸加快、喘息严重时可出现呼吸性碱中毒,血液pH值上升,钠钾比例失调。2.2降低鸡只的生产性能。①高温时,采食量下降,试验表明,环境温度在21~31℃时,每上升1℃,采食量下降1.7%,在32~38℃范围… 相似文献
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环境是影响鸡群生产性能的重要因素,其中环境温度的影响最为突出,环境温度过高会引起鸡群的热应激,所谓热应激是指环境温度超过舒适区的上限温度,家禽所出现的一系列生理反应。(舒适区指畜禽机体代谢产热刚好等于散热,不需要物理调节而能维持体温正常的环境温度范围)。表现为皮肤血管扩充,皮温升高,呼吸加快等热调节过程。夏季温度越来越高,过高的气温会导致鸡群的热应激,鸡全身无汗腺,高温条件只能通过加强皮 相似文献
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夏季到来导致外界温度逐渐升高,湿度逐渐增大,进而导致外部环境具有高温低湿高温中湿和高温高湿的特点,其中高温高湿会使鸡群产生强烈的热应激反应造成巨大损失,因此要对鸡群进行合理的防暑降温,首先就要做好通风降温,其次要加强饲养管理,最后要进行科学的营养调控,保证鸡群安全渡夏
1 鸡群发生热应激的危害
鸡是恒温动物,正常的情况下体温为40.5 ℃~42℃,并且没有汗腺,因此鸡往外排热是比较困难的,在等热区温度范围内即16℃~27℃,鸡可通过物理调节来维持正常体温,如果超出等热区温度范围即大于27℃时,鸡通过呼吸蒸发的形式来散热,维持正常的体温.当外界环境温度高于鸡体的皮肤温度或环境相对湿度超过85%以上时,鸡群就会产生热应激. 相似文献
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高温所带来的热应激常给家禽生产造成严重的损失。这里介绍了几种可以减轻家禽热应激的矿物质。当环境温度超过 30℃时 ,可以考虑应用以下物质供家禽生产者参考使用 :1 碳酸氢钠 由于家禽没有汗腺 ,高温时只有通过增加呼吸道的水分蒸发来散热。当环境温度过高时 ,家禽呼吸率升高 ,肺通气量加大 ,从而增加呼吸道的水分散发 ,以此来保持体温的恒定。但这样却排出了大量的CO2 ,使血中CO2 结合量减少 ,pH值升高。这样家禽就发生呼吸性碱中毒 ,而NaHCO3 能增加血液中H+ 浓度 ,减轻呼吸性碱中毒对家禽的危害。炎热季节可给蛋鸡日… 相似文献
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高效液相色谱法测定维生素E粉含量 总被引:1,自引:0,他引:1
用高效液相色谱法测定饲料添加剂维生素E粉中维生素E含量。采用EclipseXDBC18柱(150mm×4.6mm,5μm),以甲醇-水(98∶2,V∶V)为流动相,流速为1.2mL/min,检测波长为285nm,柱温为25℃。在此色谱条件下,维生素E在0.104 ̄0.602mg/mL浓度范围内呈良好线性关系,r=0.9998,平均回收率为100.3%,RSD为0.72%。本法操作简便易行,系统适用性良好,适用于饲料添加剂维生素E粉中维生素E含量测定。 相似文献
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研究表明动物的遗传潜力以健康、生长和饲料转化率的形式表达维生素对动物生产效益和动物福利有显著作用. 相似文献
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动物对维生素的需要是动态的,随着新的基因型的产生、生产性能的提高、生产系统的演变,以及随着人们对维生素功能的进一步了解而发生变化。这就意味着关于维生素及其补充的导则在修定时所提出的更新建议应有一个较为稳固的基础。目前的新导则可以应用,因为其修定建议是以一个长久不变的概念即“最适宜维生素营养(OVN)”为基础的,它有助于营养学家在添加维生素时不会损害动物的健康目标和生产目标。 相似文献
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Plasma and milk concentrations of vitamin D3 and 25-hydroxy vitamin D3 following intravenous injection of vitamin D3 or 25-hydroxy vitamin D3. 
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下载免费PDF全文 Plasma levels of vitamin D3 or 25-hydroxyvitamin D3 in ewes after administration of a single massive intravenous dose of vitamin D3 (2 X 10(6) IU) or 25-hydroxy vitamin D3 (5 mg) were determined at zero, one, two, three, five, ten and 20 days postinjection. In six ewes injected with vitamin D3 conversion of vitamin D3 to 25-hydroxy vitamin D3 resulted in a six-fold increase in the plasma 25-hydroxy vitamin D3 level within one day. Elevated levels were maintained until day 10 but by day 20 a substantial decline in the plasma 25-hydroxy vitamin D3 level had occurred. Peak levels of vitamin D3 were reached one day after injection and then continuously declined until day 20. Administration of 25-hydroxy vitamin D3 increased plasma concentrations of 25-hydroxy vitamin D3 to fivefold higher levels than those observed when vitamin D3 was injected, with approximately threefold higher levels of 25-hydroxy vitamin D3 maintained for five days. On day 10 and day 20 ewes which were injected with 25-hydroxy vitamin D3 still maintained plasma levels of 25-hydroxy vitamin D3 which were twice as high as those of ewes injected with vitamin D3. In six ewes injected with vitamin D3, a sharp increase in vitamin D3 level in milk occurred within one day and more than a tenfold elevation of milk vitamin D3 concentrations were maintained for ten days. By 20 days the milk vitamin D3 level had returned to preinjection levels. These observations suggest that indirect supplementation of the suckling ruminant with vitamin D3 may be achieved through maternal injection and subsequent mammary transfer. 相似文献
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Terachi T Inoue Y Ashihara N Kobayashi M Ando K Matsui T 《Journal of animal science》2011,89(4):1056-1061
The effect of several vitamin K homologs on plasma vitamin K concentration was determined to assess their potential as a vitamin K supplement for adult horses. Sixteen Thoroughbred horses consisting of 8 mares and 8 geldings, aged 8.4 ± 3.6 yr and weighing 520.8 ± 36.1 kg, were allocated to 4 groups (n = 4). Each group was given phylloquinone, menaquinone-4, or menadione at 58 μmol/d, or no vitamin K supplement for 7 d. Plasma samples were collected before feeding, and 2, 4, and 8 h after feeding on d 7, and plasma concentrations of phylloquinone and menaquinone-4 were determined. Plasma phylloquinone concentration was greater in the phylloquinone group than in the other groups (P < 0.001). The phylloquinone concentration quadratically increased (P < 0.001) after feeding in the phylloquinone group but no changes in the plasma phylloquinone concentration were observed after feeding in the other groups. Plasma menaquinone-4 concentration was greater (P < 0.001) in the menadione group than the other groups, including the menaquinone-4 group. Menaquinone-4 concentration did not change (P = 0.192) after feeding in each group. Menaquinone-4 has been considered the most potent vitamin K homolog for bone metabolism; therefore, the present experiment indicates that menadione is a good source of vitamin K for bone health in horses because it is the only vitamin K homolog that increased the plasma concentrations of menaquinone-4. 相似文献
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M E Mount B F Feldman 《Journal of the American Veterinary Medical Association》1985,186(10):1038-1039
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Durtnell RE 《The Journal of small animal practice》1999,40(11):550-550