Antioxidant defense mechanisms and fatty acid catabolism in Red-billed Leiothrix(Leiothrix lutea)exposed to high temperatures

Extreme hot weather is occurring more frequently due to global warming,posing a significant threat to species survival.Birds in particular are more likely to overheat in hot weather because they have a higher body temperature.This study used a heat stress model to investigate the antioxidant defense mechanisms and changes in fatty acid catabolism in Red-billed Leiothrix(Leiothrix lutea)to gain an understanding of how birds adapt to high temperatures.The birds were divided into five groups:a control group(30℃for 0 days),1 D group(40℃for 1 day),3 D group(40℃for 3 days),14 D group(40℃for 14 days)and recovery group(40℃for 14 days,then 30℃for 14 days).Our results indicated that when Red-billed Leiothrix are subjected to heat stress,malondialdehyde(MDA)content in the liver significantly increased,as did the enzyme activities of catalase(CAT),glutathione-SH-peroxidase(GSH-PX)and total antioxidant capacity(T-AOC)in the liver.Furthermore,there was a significant increase in heat shock protein 70(HSP70)expression in the liver,while avian uncoupling protein(avUCP)expression in muscle was significantly reduced.Additionally,there was a significant reduction in fatty acid catabolism enzyme activity such as 3-hydroxyacyl-CoAdehydrogenase(HOAD)activity in the heart,and carnitine palmitoyl transferase 1(CPT-1)and citrate synthase(CS)activity in the heart and liver.Furthermore,fatty acid translocase(FAT/CD36)in the heart,heart-type fatty acid binding protein(H-FABP)and fatty acid binding protein(FABP-pm)in the liver and heart were also significantly decreased.These changes reverted after treatment,but not to the same level as the control group.Our results indicated that when Red-billed Leiothrix are exposed to heat stress their internal antioxidant defense system is activated to counteract the damage caused by high temperatures.However,even with high antioxidant levels,prolonged high temperature exposure still caused some degree of oxidative damage possibly requiring a longer recovery time.Additionally,Red-billed Leiothrix may be able to resist heat stress by reducing fatty acid transport and catabolism.

The role of temperature as a driver of metabolic flexibility in the Red-billed Leiothrix(Leiothrix lutea)

Background:The thermoregulatory ability of animals is strongly influenced by the temperature of their environment.Acclimation to cold requires a range of physiological and morphological adjustments.In this study,we tested the hypothesis that a small passerine,the Red-billed Leiothrix(Leiothrix lutea),can maintain homeothermy in cold conditions by adjusting the physiology and biochemistry of its tissue and organs and return to its former physiological and biochemical state when moved to a warm temperature.Methods:Phenotypic variation in thermogenic activity of the Red-billed Leiothrixs(Leiothrix lutea)was investigated under warm(35℃),normal(25℃)or cold(15℃)ambient temperature conditions.Oxygen consumption was measured using an open-circuit respirometry system.Mitochondrial state-4 respiration and cytochrome-c oxidase(COX)activity in liver,kidney heart and pectoral muscle were measured with a Clark electrode.Results:Birds acclimated to an ambient temperature of 15℃ for 4 weeks significantly increased their basal metabolic rate(BMR)compared to a control group kept at 25℃.Birds acclimated to 35℃ decreased their BMR,gross energy intake(GEI)and digestible energy intake(DEI).Furthermore,birds acclimated to 15℃ increased state-4 respiration in their pectoral muscles and cytochrome-c oxidase(COX)activity in their liver and pectoral muscle,compared to the 25℃ control group.Birds acclimated to 35℃ also displayed lower state-4 respiration and COX activity in the liver,heart and pectoral muscles,compared to those kept at 25℃.There was a positive correlation between BMR and state-4 respiration,and between BMR and COX activity,in all of the above organs except the liver and heart.Conclusions:Our study illustrates that the morphological,physiological,and enzymatic changes are associated with temperature acclimation in the Red-billed Leiothrix,and supports the notion that the primary means by which small birds meet the energetic challenges of cold conditions is through metabolic adjustments.

红嘴相思鸟Leiothrix lutea行为观察和能量代谢的研究

本文研究了常温下红嘴相思鸟的静止代谢率，平均耗氧率为（７．９７±０．５３）ｍＬ，Ｏ２／ｈ·ｇ，耗氧量与体重呈正相关．耗氧量的性别差异明显．对其行为观察表明，红嘴相思鸟属昼出性活动动物，取食、修饰、水浴等行为明显．

红嘴相思鸟鸣声的初步探讨

2005年4～10月，在四川省屏山县老君山自然保护区通过计算机声谱分析技术对红嘴相思鸟的鸣声进行了初步研究。结果表明：红嘴相思鸟具有报警、联络、警戒和惊叫4种鸣声；其中最常见的鸣声为联络鸣声，报警、警戒和惊叫3种鸣声是一个先后连续的鸣叫过程。通过红嘴相思鸟鸣声特点探讨了与其相应行为的关系。

红嘴相思鸟的消化系统形态学研究

对10只(6♀4♂)红嘴相思鸟消化系统的形态结构进行了较为系统的解剖与观察,并对各器官进行了测量。结果表明,红嘴相思鸟舌前端有刺毛状结构,后端有一排尖端后指的栉状突;咽有不规则乳突,食管较细,无明显可见的嗉囊;腺胃内壁粘膜上均匀分布小而多的圆形乳突,肌胃发达,内有黄色革质层;肠道总长约为体长的0.94倍。

四川老君山自然保护区红嘴相思鸟繁殖生态初报

2011年7～8月在宜宾市屏山县老君山自然保护区对红嘴相思鸟Leiothrix lutea的繁殖生态进行了初步研究。研究结果显示,红嘴相思鸟巢主要营造于方竹Chimonobambusa quadrangularis(Fenzi)Makino、柃木属Eurya树枝和藤蔓上,藤蔓有悬钩子属Rubus、猕猴桃Actinidia chinensis、木通属Akebia等。巢址环境温度(22.01±0.35)℃,湿度(88.30±0.81)%;巢材主要有树叶、树皮、细藤、细树根、细树枝、方竹叶、草叶、细草茎、苔藓、人造纤维、棉类、塑料、过滤嘴纤维等;巢外径(85.31±1.09)mm×(94.00±1.37)mm、内径(55.77±0.69)mm×(62.48±0.70)mm、巢深(54.78±1.14)mm、巢高(80.43±2.39)mm;窝卵数3.125枚/窝,孵化期12d,孵化工作主要由雌鸟担任;巢内育雏期10～12d,雌雄共同育雏,雄鸟占主要。繁殖成功率75.00%。

切断鸣管神经支对红嘴相思鸟鸣声的影响

该研究以红嘴相思鸟(Leiothrix lutea)为材料,分析对其鸣管神经支(NXIIts)进行断单侧和断双侧处理后的鸣声声学变化,探讨鸣管神经支配特性。结果表明,断单侧NXIIts后红嘴相思鸟均可发出常见叫声,但鸣声音节间隔拉长,音节时程缩短,调频指数下降,且断左侧NXIIts的作用效果明显大于断右侧NXIIts。即NXIIts支配具单侧性,且呈左侧优势,此外,左侧NXIIts还具有产生音节高频成分和谐波的作用。断双侧NXIIts后,红嘴相思鸟鸣声音调唯一,响度大幅下降,音节脉冲数增加。

中国四种小型鸟类代谢产热的气候适应(英文)

采用封闭式流体压力呼吸计 ,分别在 5 - 35°C、 10 - 30°C和 10 - 35°C的环境温度范围内测定了黄眉(Emberizachrysophrys)、红胁绣眼鸟 (Zosteropserythropleura)、画眉 (Garrulaxcanorus)和红嘴相思鸟 (Leio thrixlutea)的耗氧量、热传导、体温等指标 ,探讨了其代谢产热特征。黄眉、红胁绣眼鸟、画眉和红嘴相思鸟的热中性区分别为 2 5 - 30°C、 2 5 - 2 7 5°C、 2 2 5 - 2 7 5°C和 30 - 32 5°C。在 5 - 30°C的温度范围内 ,黄眉和画眉能保持稳定的体温 ,分别为 4 0 5 8± 0 2 6°C和 4 1 6 8± 0 11°C ;红胁绣眼鸟和红嘴相思鸟的体温随环境温度的降低有下降的趋势。在热中性区内 ,黄眉、红胁绣眼鸟、画眉和红嘴相思鸟的平均基础代谢率分别是3 6 5± 0 14、 4 6 9± 0 2 7、 3 5 5± 0 14和 4 2 4± 0 17mlO2 / (g·h) ,分别是体重预期值的 12 8%、 2 30 %、 6 0 %和 12 0 %。在下临界温度以下 ,黄眉、红胁绣眼鸟、画眉和红嘴相思鸟的最小热传导分别是 0 2 4、 0 31、 0 2 1和 0 34mlO2 / (g·h·°C) ,分别是体重预期值的 14 9%、 14 9%、 2 15 %和 2 4 3%。这些小型鸟类的生理生态学特征是 :(1)黄眉和红胁绣眼鸟有高的基础代谢率和相对低的下临界温度 。

红嘴相思鸟的骨骼系统解剖

采用常规方法对30只(9♂,21♀)红嘴相思鸟Leiothrix lutea骨骼进行详细的观察、描述和测量,为雀形目的进化与适应、系统发育和分类提供骨骼方面的资料.其特征是头骨薄而轻,颅腔较大;眶间距小,眼眶大;胸骨后侧缘具一对缺刻,龙骨突发达;尺骨外侧具6-7个突起;跗跖骨的第二跖骨滑车发达,滑车面宽,与第三趾骨滑车间距大;第一趾骨发达.胸骨的长度与深度之比(L/H)和宽度与深度之比(W/H)的平均值分别是2.25和1.25.对雌雄骨骼测量数据比较分析发现,除枕骨孔横径、枕骨孔纵径和耻骨长差异显著(P<0.05)外,其它骨骼参数差异不显著.这些骨骼特征与红嘴相思鸟快速而短暂地在灌木丛中穿梭,树枝间频繁的来回跳跃,在快速飞行时能迅捷且稳当地降落在树枝上的生态习性相适应.

海南岛发现外来鸟种红嘴相思鸟和灰喜鹊

外来物种的入侵被认为是全球生物多样性及其保护所面临的巨大威胁并伴随着世界经济贸易的发展而越发频繁.2010—2011年期间,通过野外调查在海南岛记录到红嘴相思鸟(Leiothrix lutea)和灰喜鹊(Cyanopica cyana)的逃逸群体,确认为海南岛的外来鸟种.

鸟类核型研究 Ⅰ.画眉亚科3种

本文首次报道了画眉亚科的白喉噪鹛(Garrulax albogularis)、丽色噪鹛(Garrulax fornosus)、红嘴相思鸟(Leiothrix butea)3个种的核型,结合该亚科已报道的画眉进行比较,发现在第一号染色体上存在明显差异,在4个种的1号染色体中分为两种模式,丽色噪鹛与画眉一致,同为近中着丝粒染色体(SM),而白喉噪鹛和红嘴相思鸟一致,同为近端着丝粒染色体。该现象与该亚科分类中的亲缘关系有一定差异。

基于小波多分辨分析的相思鸟哨声的处理

利用小波的多分辨分析对相思鸟的哨声进行了处理.选取具有正交和紧支集程度较高Sym8小波对原始信号进行5层分解,得到具有明显特征时域和频域信号.

贵州宽阔水自然保护区红嘴相思鸟的巢址选择

2008年4月至7月,在贵州宽阔水自然保护区对红嘴相思鸟(Leiothrixlutea)的巢址选择进行了调查.野外共发现红嘴相思鸟的巢17个,其中88%(n=15)位于竹林中.主成分分析表明,影响红嘴相思鸟巢址选择的主要因素包括乔木因子、地形因子、人为活动因子、巢隐蔽因子和食物因子等.用5m×5m样方法对巢址和对照样方进行统计分析表明,在生境类型等8个参数中存在显著差异(Z=-4.794,P=0.000).巢址中心样方和巢址四周样方在灌木高度(Z=-2.855,P=0.004)、灌木数量(Z=-2.662,P=0.000)和草本种类(Z=-2.190,P=0.028)上存在显著差异,表明红嘴相思鸟倾向于选择灌木密集,草本单一的生境营巢,而对郁闭度没有选择偏好.

红嘴相思鸟热应激及壳聚糖抗应激效应研究

为了探讨人工驯繁条件下高温对红嘴相思鸟Leiothrix lutea生理机能的影响及壳聚糖的抗应激效应,本研究采用单因子实验设计,将80只成年健康红嘴相思鸟(♀)随机分到5个处理中(处理1为常温对照组,处理2、3、4、5为急性高温应激组,处理温度35℃,持续3h),分别在其基础日粮中添加0%,0%,0.1%,0.5%,和1%的壳聚糖,检测血浆中Ig G、Ig M和Ig A的浓度,组织中抗氧化酶活力和脂质过氧化指标丙二醛(MDA)的含量.结果发现:与常温对照组相比,各热应激对照组红嘴相思鸟免疫球蛋白(除Ig A)含量降低,体内抗氧化酶活力下降(3种组织中T-SOD酶活均显著降低,肝脏中GSH-PX及CAT酶活显著降低),脂质过氧化产物含量升高(肝脏和肌肉中MDA含量显著升高);而壳聚糖又能不同程度的提高免疫球蛋白(除Ig A)的含量,增强体内抗氧化酶活力,缓解体内脂质过氧化状况,且壳聚糖的添加剂量在0.5%时,机体表现出最佳的抗应激能力.

红嘴相思鸟贸易种群性比调查

【目的】红嘴相思鸟(Leiothrix lutea)属雀形目噪鹛科鸟类,因其叫声婉转悦耳,颜色艳丽,是我国传统观赏鸟类,长时间大量的贸易导致资源破坏严重,现已被列入濒危野生动植物种国际贸易公约(CITES)附录Ⅱ,同时也被列为国家Ⅱ级重点保护动物。通过分子生物学手段对国内市场上贸易的红嘴相思鸟进行性别鉴定,一方面可以了解我国红嘴相思鸟野生种群性比状况;另一方面,性别鉴定结果可用于评估其贸易捕捉是否存性别选择偏好;同时还可验证市场摊主利用形态鉴定红嘴相思鸟性别的准确率,为红嘴相思鸟保护和贸易管理提供基础资料。【方法】调查我国14个省份14个鸟市是否存在红嘴相思鸟贸易情况,同时采集各个鸟市的红嘴相思鸟血液样本10~20μL,共361份。利用Ezup柱式血液基因组DNA抽提试剂盒提取DNA,基于通用引物P2/P8及新设计引物对样本DNA进行PCR扩增,通过电泳条带数进行性别鉴定,每个样本至少重复3次,结果一致后判定性别,计算各鸟市及整体性比,分析其贸易种群性比情况及形态学性别鉴定准确率。【结果】在鸟类性别鉴定通用引物P2基础上改进获得新引物A1,利用引物A1/P8进行性别鉴定得到的扩增条带更清晰、稳定,并成功鉴定出361份样本的性别:雄鸟163只,雌鸟198只。红嘴相思鸟贸易种群整体性比为0.45,偏雌;但各个鸟市性比差异较大,除2处市场性比基本平衡之外,其余7个市场性比偏雌,5个市场性比偏雄。形态学鉴定性别的准确率为0.79,其中雌性0.74,雄性0.82。【结论】整体性比结果表明红嘴相思鸟贸易捕捉中应无普遍的性别选择,推测红嘴相思鸟不同地理群体本身可能性比偏倚现象。与分子生物学方法相比,通过形态特征进行性别鉴定存在误差,一定程度上可减弱贸易捕捉雄性偏好对红嘴相思鸟种群性比的影响。

两种观赏鸟性别的快速鉴定研究

虽然CHD基因的保守性和性特异性引物已被广泛应用于性别鉴定领域,但羽毛样以及PCR体系等的选择却会产生不同的鉴定效果,因此如何对这些影响单性态观赏性鸟类性别鉴定的多重因素进行最优化处理以达到快速鉴定的目的,就成了人工繁育过程中最亟待解决的问题.本文用固定影响因素(PCR体系除外)的方法,对PCR体系进行优化处理,羽毛提取DNA,然后CHD基因的相关引物进行性别鉴定.结果表明:所有雌性鸟类得到CHD-Z和CHD-W的两条带,雄性1条CHD-Z带的高效鉴定.因此,确立了此类鸟的快速鉴定体系,即画眉鸟性别鉴定体系,用于鉴定换羽季的画眉鸟的性别;以及红嘴相思鸟性别鉴定体系,用于鉴定红嘴相思鸟的性别;同时可为多种体型相似的鸟类的快速鉴定提供参考.

变温条件下红嘴相思鸟黄体生成素分泌节律的可塑性及个体间变异

鸟类的生殖内分泌主要受光周期调控,在全球气候变化的背景下,鸟类生殖内分泌轴(HPG)分泌节律适应温度变化的可塑性及个体间变异则决定了种群适应气候变化的微进化潜能。以黄体生成素(LH)为指标研究了红嘴相思鸟HPG轴分泌节律的温度可塑性及个体间变异。研究结果表明:(1)温度升高可引起红嘴相思鸟LH分泌活动。(2)高温组和低温组红嘴相思鸟血浆LH水平均存在个体差异,高温组的个体间变异总体上大于低温组。一些个体具有较大的HPG轴可塑性,能够提前分泌LH。研究结果表明温度升高条件下,红嘴相思鸟HPG轴活动具有提前的可能性,且种群内存在个体间差异,一些个体可提前启动生殖,进而适应可能出现的环境变化。为探讨鸟类适应气候变化的微进化潜能提供了参考信息。

红嘴相思鸟小肠的常规形态学研究

本试验取1、5、9日龄和成年红嘴相思鸟的十二指肠、空肠、回肠为材料,制作HE染片,光学显微镜下观察红嘴相思鸟消化道的组织结构特征,测量各层厚度并计算绒毛高度与隐窝深度的比值。结果显示:红嘴相思鸟小肠管壁由黏膜、黏膜下层、肌层和浆膜层4层构成,肠绒毛高度、隐窝深度以及肌层厚度都呈现出十二指肠>空肠>回肠的趋势;随着日龄的增长,肠绒毛长度、隐窝深度、肌层厚度总体也呈现增长的趋势;小肠各段绒毛高度与隐窝深度的比值与日龄呈负相关。

红嘴相思鸟雏鸟肝脏形态结构的组织学观察

本研究选用人工驯养繁殖的1、3、6和9日龄红嘴相思鸟健雏的肝脏为材料,通过HE染色法、甲基绿派洛宁法和普鲁士蓝法进行染色,光镜观察肝脏的组织形态结构及肝组织细胞核酸分布和铁含量变化,电镜观察肝细胞的超微结构变化。结果显示,所有日龄的肝组织内结缔组织均不丰富,肝小叶界限均不明显;随雏鸟日龄的增加,肝细胞索逐渐清晰,造血细胞数量减少,肝细胞的RNA含量降低,肝细胞核仁逐渐变小;1、3和6日龄的红嘴相思鸟肝细胞内无铁颗粒沉积,但9日龄雏鸟肝细胞的胞浆内见有大量呈广泛性分布铁颗粒;随日龄的增加,肝细胞内线粒体、内质网等细胞器日益丰富。结果表明,红嘴相思鸟雏鸟肝脏发育与其他幼龄动物肝脏发育存在一定差异,总体表现为随日龄增长,肝脏结构逐步发育成熟,功能也逐渐增强,在育雏后期表现出明显的铁富集。

Thoughts of a travelling ecologist 15. Are arthropods in decline and does it matter?

The world population continues to grow, although there are signs that the trend is slowing, and the human population may actually be facing a decline (Bricker & Ibbitson,2019). Nonetheless, the human impact is now so large that it threatens numerous other species. Recent assessments of the state of the natural world underlines that extinctions are not the only relevant criterion to indicate that the human race harms other beings: since 1970, the populations of an estimated 10,000 species of vertebrates declined by over half (WWF,2014). Another striking example of human influence on the living world is on bird abundance. Domesticated chicken ( Gallus gallus domesticus ) is today the world′s most numerous bird with a standing population of 22.7 billion (FAO,2018), which is an order of magnitude greater than the standing stock of the most abundant wild bird species, the red-billed quelea ( Quelea quelea ) at approximately 1.5 billion (Craig,2010).