家禽核酸疫苗的研究进展

核酸疫苗是当今疫苗研究的最前沿领域，本文就核酸疫苗在家禽传染病中的应用做一综述。     

微生物诱导剂浸种对小麦萌发期的抗旱诱导效果

试验结果表明,在正常供水和水分胁迫条件下,经微生物诱导剂处理,可增加小麦萌发时期的根冠比,而且在水分胁迫条件下的增加幅度大于正常供水条件。微生物诱导剂可在水分胁迫条件下促进根系生长发育,提高根系干物质积累。这些性状的改善有利于提高小麦的抗旱能力。但诱导剂处理后在一定程度上抑制了小麦种子萌发率以及小麦芽和根的伸长生长。     

不同类型日粮饲喂幼龄山羊的效果研究

在精料用量相同、定量采食的条件下,研究不同粗料配合、不同加工方法对幼龄波尔羊生产性能的影响,并分析其经济效益。结果表明:粗料为35%稻秆粉、15%砻糠的 号全混合颗粒料在本次试验中的效果最为突出。与粗料为青草的日粮1相比,试羊日增重、饲料转化率分别提高48.4%(P<0.05)和27.9%,且每千克增重饲料费用降低41.5%;与粗料为稻秸散料的日粮2相比,试羊日增重、饲料转化率分别提高了53.3%(P<0.05)和26.9%,且每千克增重饲料费用降低30.9%。经济效益明显。     

鸡舍环境耐药细菌气溶胶及其向环境传播的研究

通过对舍内粪便、空气和舍外环境(10、50、100m)中的空气分离到的细菌鉴定，包括细菌DNA分子生物学检测及药物敏感实验以及细菌含量统计学分析，证明三者之间存在着内在联系；舍内环境微生物气溶胶包括耐药细菌通过舍内外气体交换排往鸡舍周围环境，舍周边环境在一定范围内受到生物污染。研究显示，在粪便、舍内空气、舍外环境10、50、100m空气中分离的金黄色葡萄球菌和链球菌80％以上对氯霉素(CMP)和对苯唑青霉素(OXA)耐药；粪便和舍内外环境空气中的80％以上的大肠杆菌和沙门氏菌对氨苄青霉素(AMP）、氯霉素(CMP)、头孢唑啉(CFZ)均为抑制。证明该鸡舍曾经使用过这些药物治疗或作为添加剂在饲料中添加，鸡群产生了耐药细菌菌株，并向环境传播。测量数据统计结果指出，十里河鸡场鸡舍内环境空气中的大肠杆菌、沙门氏菌、金黄色葡萄球菌和链球菌与舍外环境中相应菌群含量比较差异显著或极显著(P＜0．05或P＜0．01)，但舍外10、50、100m之间的相应菌群比较差异不显著(P＞0．05)，这说明鸡舍内环境细菌气溶胶含量产生多，含量高，菌源强度大；另一方面，反应了鸡舍内环境微生物气溶胶包括耐药细菌能向舍外环境扩散，位舍外环境在一定的范围内受到动物源性生物污染，影响范围大于100m。通过对鸡舍环境微生物气溶胶来源的探讨发现，粪便中的大肠杆菌、沙门氏菌、金黄色葡萄球菌和链球菌与舍内空气相应菌群数量关系比较，呈现正相关(r=0.99)。这从一个侧面揭示了粪便可能是微生物气溶胶的主要来源。     

架子牛肥育综合技术研究

该文从架子牛的选购、驱虫、肥育期的饲养管理、日粮营养等方面做了系统的研究。结果表明,选择2～3岁的夏洛来牛或西门塔尔牛的改良后代,采用高能量高蛋白质日粮可以获得较高的经济效益。     

异黄酮植物雌激素在家禽生产中的作用

异黄酮植物雌激素广泛分布于植物界,其生理活性多种多样。它具有促进家禽生长,提高产蛋性能等作用,但对其作用机制目前尚未完全明确。本文综述了近年来有关异黄酮植物雌激素在家禽生产方面的研究概况。     

生物安全与家禽疫病控制

疫病成为制约我国畜牧业发展的主要因素，要较好控制疫病必须推行生物安全措施。本文从生物安全概念、推行生物安全必要性、生物安全范围、生物安全难点及养鸡场生物安全措施进行了论述。     

禽多杀性巴氏杆菌强毒株与弱毒株制备的蜂胶灭活疫苗免疫原性的比较试验

用禽多杀性巴氏杆菌强毒株(C48-1)与弱毒株(G190E40和B26-T1200)制备的蜂胶灭活疫苗的免疫原性对比试验结果表明,强毒株C48-1制备的禽霍乱蜂胶灭活疫苗的免疫效果显著高于弱毒株G190E40和B26-T1200,近期保护率相差20%～40%,3个月后相差40%～80%.强毒株C48-1的免疫原性显著高于弱毒株G190E40和B26-T1200,说明禽多杀性巴氏杆菌荚膜上的毒力蛋白可能具有免疫原性.     

Biochemical proximates of pumpkin (Cucurbitaeae spp.) and their beneficial effects on the general well‐being of poultry species

There is a growing need to increase productivity in poultry. Growth hormones and antibiotics have the ability to improve health, weight gain and feed efficiency in meat‐producing animals. The growth‐promoting antibiotics are administered to poultry to improve the general performance of the chicken. However, the use of the xenobiotic drugs in food‐producing animals has been a concern and a sensitive issue of debate for several decades in the EU and many other regional blocks of the world. Consequently, the use of hormones in animal production has been banned in Italy, Denmark and Germany for over 4–5 decades, while Belgium and Greece had never permitted its use for livestock fattening purposes. Bioactive phytochemicals exhibit antimicrobial, antioxidant, antiparasitic, antiprotozoal, antifungal and anti‐inflammatory properties and consequently have several beneficial effects on appetite, growth and the immune status of the animal. In South Africa, different species of pumpkin are produced for food due to their high nutrient content. The flesh serves as a traditional food, while the seeds and peels are commonly discarded. Pumpkin seed extract is reported to be useful for immunomodulation, reproductive health, therapeutics over a wide range of disease conditions and stimulates metabolism of accumulated fats. Studies have also shown that pumpkin seeds are a valuable source of protein and fat. Their complexity and extent of bioactivity offers sustainable prospects for natural control of pathogenic/parasitic organisms, stimulate nutrition or enhance resistance to disease infections, and reduce abdominal fat and serum levels of harmful lipids, while increasing serum levels of beneficial lipids.     

On farm observations to increase genetic gain in breeding schemes for village poultry production – A simulation study

To improve genetic gain of breeding programs for village poultry production, breeding schemes with observations obtained in village production systems using individual (VIO) and group recording (VGO) were examined under different levels of genotype-by-environment-interactions (GxE). GxE was modeled by varying the correlation between traits measured in the breeding station and village environments for bodyweight (r_{g_BW}) and egg production (r_{g_EP}). Relative and absolute genetic gains obtained from VIO and VGO were used for comparison between the schemes. Results showed that village observations significantly improved genetic gains compared to the scheme without birds tested in the village. The improvement was only slightly larger with individual observations than with group observations. Higher r_{g_BW} and r_{g_EP} led to lower relative genetic gain, but a higher absolute gain of VIO and VGO. It is recommended to apply a breeding scheme using group recording of village performance when strong GxE in breeding for village poultry is expected.