武冈铜鹅与其他3种鹅肉品质特性的比较

本试验旨在测定武冈铜鹅、四川白鹅、武川鹅以及天府肉鹅的常规肉品质和矿物质元素、氨基酸、风味脂肪酸、肌苷酸含量及肌纤维直径与密度,并进行比较。选取1日龄体格健壮的武冈铜鹅、四川白鹅、武川鹅和天府肉鹅各30只,分为4组,每组5个重复,每个重复6只鹅,公母各占1/2,饲喂相同饲粮。试验期为70 d。结果表明:1)武冈铜鹅胸肌粗蛋白质含量显著高于其他3种鹅(P<0.05),胸肌粗脂肪含量显著高于四川白鹅(P<0.05);而腿肌粗脂肪含量与其他3种鹅差异不显著(P>0.05),腿肌贮存损失率显著低于其他3种鹅(P<0.05)。2)武冈铜鹅肌肉铁、镁、钾含量均显著高于四川白鹅和天府肉鹅(P<0.05)。3)武冈铜鹅肌肉中天门冬氨酸、谷氨酸、丙氨酸、缬氨酸、赖氨酸的含量极显著高于武川鹅和四川白鹅(P<0.01),甘氨酸和脯氨酸含量极显著高于其他3种鹅(P<0.01),而胱氨酸和苯丙氨酸与其他3种鹅差异不显著(P>0.05)。4)武冈铜鹅肌肉中肉豆蔻酸含量极显著高于其他3种鹅(P<0.01);十六烯酸含量极显著高于武川鹅(P<0.01);亚麻酸含量显著高于武川鹅(P<0.05);二十烯酸含量极显著高于天府肉鹅(P<0.01)。5)武冈铜鹅胸肌肌纤维密度显著高于四川白鹅和武川鹅(P<0.05),而各组肌纤维直径没有显著差异(P>0.05)。由此可见,武冈铜鹅肌肉品质以及风味优于武川鹅、四川白鹅以及天府肉鹅。     

Feeding value of pastures for ruminants

Perennial ryegrass is the primary forage component of ruminant diets in New Zealand. It is persistent and palatable, and immature ryegrass has a high nutritive value (NV). However, seed-head development substantially lowers its feeding value (FV) as fibre concentration increases, the rate and extent of digestibility decreases, and voluntary intake declines. Ryegrass pastures are susceptible to accumulation of endophytic and saprophytic fungi in dead material at the base of the sward, especially when mature and laxly grazed. Feeding forage legumes to ruminants grazing grass-dominant pastures will improve animal performance and lessen the reliance on a single species to meet all nutritional requirements.

The FV of forage is a function of intake and NV, measured by chemical analyses and animal feeding trials. Performance of individual animals grazing forages is usually limited by energy intake because structural fibre can slow digestion and clearance from the rumen and because of competition between individuals for available feed. The use of metabolisable energy (ME) content of forage to signify FV can give a reasonable indication of animal performance, but it should be used in conjunction with chemical analyses to improve the accuracy of predictions.

The relationship between FV, pasture production, animal performance and profitability is complex. The importance of skilled management to maintain pasture quality and optimise animal performance under inconsistent climatic conditions should not be underestimated. Acceptable animal performance with minimal veterinary intervention requires good nutrition, but the genetic potential of livestock in New Zealand cannot be met solely by grazing pasture, especially when a high utilisation of pasture is required to maintain quality and profitability.

Producers are responding to industry demands to reduce the seasonality in supply of milk and meat by changing lambing and calving dates, and extending lactation length in dairy cows. Social changes include adoption of once-daily milking in the dairy industry. Some changes have necessitated increased use of supplements and others can be met by feeding forages with a higher FV than ryegrass, all of which require an improved knowledge of feed quality. This information is available through rapid and inexpensive near infrared spectroscopy (NIRS) analysis, enabling animal nutritional needs to be balanced by appropriate nutrient supply. It is essential that producers continue to improve animal welfare, limit excessive use of fertilisers and meet the demands of overseas consumers. Good nutrition, with an increased use of legumes and other forages to complement ryegrass pastures, will enable these objectives to be achieved.     

西藏原始林芝云杉林空间结构参数分布特征

以藏东南波密岗乡自然保护区原始林芝云杉林为研究对象,应用空间结构参数角尺度、混交度和大小比数,建立空间结构参数的三元分布,揭示林分的空间结构特征。结果表明,从一元分布看,林木整体属于随机分布,林分强度混交,树种的优劣程度参差不齐,整体处于中庸状态;在混交度和角尺度分布中,以随机分布和强度混交林木株数最多,大小比-角尺度组合中,均以随机分布轴线和中庸轴线两侧基本对称;三元结构参数组合为强度混交、随机分布、亚优势状态林木分布较多。主要树种的混交程度较高,呈现强度和极强度混交状态;其中林芝云杉和华山松为该群落的优势树种随机分布,其他主要树种都为轻度聚集分布;树种间大小比数差异明显,其中林芝云杉最低,<0.252,处于亚优势状态。全面分析原始林芝云杉林的空间结构,为林芝云杉林结构优化调整提供重要参考,为藏东南天然林可持续发展提供科学依据。     

浅析阿拉善左旗林业有害生物防治现状及应对措施

文章对阿拉善左旗林业有害生物防治现状进行了调查,分析了林业有害生物监测防治工作存在的问题,提出做好林业有害生物防治社会化服务工作应对的措施,对于建立起适应当前林业改革和发展形势需要的林业有害生物防治公共服务保障体系提供了理论依据。     

Characterization of phytoecdysteroid glycosides in Meadowfoam (Limnanthes alba) seed meal by positive and negative ion LC-MS/MS

Meadowfoam ( Limnanthes alba) is an oilseed crop grown in western Oregon. The seed meal has potential value as a biopesticide due to glucosinolate degradation products and phytoecdysteroids, a group of polyhydroxylated triterpenoids with potent activities as arthropod molting hormones. Liquid chromatography in combination with tandem mass spectrometry operated in the precursor ion mode revealed the presence of four ecdysteroid glycosides in meadowfoam seed meal. The carbohydrate sequence and the identity of the ecdysteroid aglycones, ponasterone A and 20-hydroxyecdysone, were determined by product ion scanning. Ecdysteroids were detected in the negative ion mode as [M + formate] (-) ions, which yielded [M - H] (-) and alpha-cleavage fragments with retention of hydroxyl groups in MS/MS experiments (not seen in the positive ion mode), allowing the determination of the number of hydroxyl groups in the side chain and in the steroid ring system. MS/MS of glycoside ions ([MH] (+) or [M + formate] (-)) provided carbohydrate sequence information.     

Leukemia inhibitory factor protein and receptors are expressed in the bovine adrenal cortex and increase cortisol and decrease adrenal androgen release

The release of adrenal steroids during acute stress is primarily regulated by adrenocorticotropic hormone (ACTH). In contrast, during chronic inflammatory stress additional factors are involved in regulating adrenal function. Leukemia inhibitory factor (LIF) is a pleiotropic cytokine that increases ACTH release from the pituitary. In addition, LIF and LIF receptors (LIFR) are expressed in the human adrenal cortex and the human adrenocortical tumor cell line H295R. Furthermore, LIF increases basal and ACTH-stimulated cortisol release from H295R cells. However, the expression of LIF and LIFR in non-human adrenal glands and the effects of LIF on the release of cortisol from adrenal cells of non-human species have not been determined. Furthermore, the effects of LIF on adrenal androgen release from all species are unknown. In this study, immunohistochemistry, Western blots, RT-PCR, and nucleotide sequencing was utilized to demonstrate that LIF and its receptor are expressed throughout the bovine adrenal cortex. Although LIF did not modify basal cortisol release from dispersed cells isolated from the bovine adrenal zona fasciculate, this cytokine increased ACTH-stimulated release of cortisol from these cells in a manner dependent on the LIF concentration and exposure interval. In contrast, LIF in a concentration-dependent and time-dependent manner decreased basal and ACTH-stimulated adrenal androgen release from dispersed cells isolated from the bovine adrenal zona reticularis. Because LIF release increases during inflammatory stress and this cytokine stimulates adrenal cortisol release and inhibits adrenal androgen release, this cytokine may play an important role in regulating the release of adrenal steroids during inflammatory stress.     

Pharmacokinetics of morphine and its metabolites in freshwater rainbow trout (Oncorhynchus mykiss)

In this study, we injected morphine sulfate IP into rainbow trout and measured the concentration of morphine and all potential metabolites in plasma using LC-MS/MS at a series of times after the injection. The pharmacokinetics of morphine were similar to those previously reported for seawater-acclimated rainbow trout, i.e. they were about one order of magnitude slower than in similarly sized mammals. The only metabolite of morphine present in the plasma was morphine-3-β- d -glucuronide (M3G); morphine-6-β- d -glucuronide (M6G) was not detected. M3G gradually increased after the morphine injection, peaked about 2 days later, then gradually decreased. In mammals, M3G plasma levels exceed morphine levels extremely rapidly, i.e. in less than an hour, regardless of dose, route of administration, or species. In trout, it took 2 days for M3G levels to exceed morphine levels. This is the first study of the metabolites of morphine in any ectotherm. We conclude that trout can metabolize morphine, but at a rate much slower than in mammals.