The clutch size,incubation behavior of Reeves’s Pheasant(Syrmaticus reevesii) and their responses to ambient temperature and precipitation

Weather conditions play a pivotal role in embryo development and parental incubation costs,potentially impacting the clutch size and incubation behavior of birds.Understanding these effects is crucial for bird conservation.Reeves’ s Pheasant(Syrmaticus reevesii) is a threatened species endemic to China,which is characterized by female-only incubation.However,there is a lack of information regarding the impact of weather conditions on clutch size and incubation behavior in this species.Using satellite tracking,we tracked 27 wild female Reeves’ s Pheasants from 2020 to 2023 in Hubei Province,China.We explored their clutch size and incubation behavior,as well as their responses to ambient temperature and precipitation.Clutch size averaged 7.75 ±1.36,had an association with average ambient temperature and average daily precipitation during the egglaying period,and was potentially linked to female breeding attempts.Throughout the incubation period,females took an average of 0.73 ±0.46 recesses every 24 h,with an average recess duration of 100.80 ±73.37 min and an average nest attendance of 92.98 ±5.27%.They showed a unimodal recess pattern in which nest departures peaked primarily between 13:00 and 16:00.Furthermore,females rarely left nests when daily precipitation was high.Recess duration and nest attendance were influenced by the interaction between daily mean ambient temperature and daily precipitation,as well as day of incubation.Additionally,there was a positive correlation between clutch size and recess duration.These results contribute valuable insights into the lifehistory features of this endangered species.

Seasonal variations in the energy budget of Elliot's pheasant (Syrmaticus ellioti) in cage

This study aimed to discuss the energy budget of Elliot's pheasant Syrmaticus ellioti in different seasons, with life and health, good growth and normal digestion of Elliot's pheasant as the tested objects, The energy budget of Elliot's pheasant was measured by daily collection of the trial pheasants' excrement in the biological garden of Guangxi Normal University from March 2011 to February 2012. The results showed that the gross energy consumption, metabolic energy and excrement energy varied by season, increasing as temperature decreased. There was significant difference in gross energy consumption, metabolic energy, excrement energy between adults and nonages. There was also a trend that food digestibility of pheasants increases as temperature increases. In the same season, the food digestibility of adults was better than that of nonages. Throughout spring, summer, autumn and winter, the metabolic energy of 4-year adults were 305.77±13.40 kJ/d, 263.67±11.89 kJ/d, 357.23±25.49 kJ/d and 403.12±24.91 kJ/d, respectively, and the nonages were 284.86±17.22 kJ/d, 284. 66±15.16 kJ/d, 402. 26±31.46 kJ/d and 420. 30±31.98 kJ/d, respectively. The minimum metabolic energies were 247.65±21.81 g, 265.86±26.53 g, respectively for each group, detected between 4-year adults and 1-year nonages. Further study is needed to determine whether 29.6 C is the optimal temperature for the Elliot's pheasant.

Seasonal variations in the energy budget of Elliot’s pheasant (Syrmaticus ellioti) in cage

This study aimed to discuss the energy budget of Elliot’s pheasant Syrmaticus ellioti in different seasons,with life and health,good growth and normal digestion of Elliot’s pheasant as the tested objects,The energy budget of Elliot’s pheasant was measured by daily collection of the trial pheasants’excrement in the biological garden of Guangxi Normal University from March 2011 to February 2012.The results showed that the gross energy consumption,metabolic energy and excrement energy varied by season,increasing as temperature decreased.There was significant difference in gross energy consumption,metabolic energy,excrement energy between adults and nonages.There was also a trend that food digestibility of pheasants increases as temperature increases.In the same season,the food digestibility of adults was better than that of nonages.Throughout spring,summer,autumn and winter,the metabolic energy of 4-year adults were 305.77±13.40 kJ/d,263.67±11.89 kJ/d,357.23±25.49 kJ/d and 403.12±24.91 kJ/d,respectively,and the nonages were 284.86±17.22 kJ/d,284.66±15.16 kJ/d,402.26±31.46 kJ/d and 420.30±31.98 kJ/d,respectively.The minimum metabolic energies were 247.65±21.81 g,265.86±26.53 g,respectively for each group,detected between 4-year adults and 1-year nonages.Further study is needed to determine whether 29.6 C is the optimal temperature for the Elliot’s pheasant.

Nest survival rate of Reeves＇s pheasant(Syrmaticus reevesii) based on artificial nest experiments

To explore the nest survival rate of Reeves＇ s pheasant（Syrmaticus reevesii） and the nest-site factors that affect it, we conducted artificial nest experiments with reference to natural nests at Dongzhai National Nature Reserve（DNNR）, Henan Province and Pingjingguan, Hubei Province from April to June 2014 simulating the situation in its early and later breeding season. We also determined distance characteristics of the nest sites by Arc GIS 10.0. Nest survival models were constructed in Program MARK for data analysis. Results indicated that in the early breeding season, the apparent survival rate（ASR） in DNNR（52.4%） was significantly greater than that in Pingjingguan（13.5%）, and the ASR in the later breeding season in DNNR（26.7%） was not indistinctively correlated with Pingjingguan（3.2%）. The daily survival rate（DSR） in the later breeding season was 93.8% in DNNR and 92.0% in Pingjingguan, respectively. The DSRs were both negatively correlated with nest distance to forest edges and settlements. The DSR in Pingjingguan was positively correlated with nest distance to paths and negatively correlated with nest distance to water sources. However, the DSR in DNNR was negatively correlated with nest distance to paths but positively correlated with nest distance to water sources.

白腹锦鸡(Chrysolophus amherstiae)的夜栖地选择

2005年4月～2006年9月,结合无线电遥测技术,采用系统搜索法和繁殖期跟踪法对四川石棉县栗子坪自然保护区白腹锦鸡的夜栖地选择进行了研究。共发现24个夜栖地。以夜栖树为中心做r=7.5m大样方,随机在其中做4个1m×1m和4个0.5m×0.5m小样方,测量乔木、灌木和草本植物的各项参数;做128个非活动区对照样方和258个日栖地样方,分别随机选取等量样方与夜栖地样方相比较。结果表明:白腹锦鸡夜栖地多在针阔混交林和针叶林中,栖树以针叶树为主,繁殖期内成对个体同树共栖的栖位距离较近,栖枝雄高雌低。影响白腹锦鸡夜栖地选择的主要因素依次为:地形、栖树、隐蔽条件和遮蔽特征。与对照样方相比,白腹锦鸡夜栖地选择较矮而疏的乔木和少量倒木的环境;与日栖地样方相比,选择较矮、疏和较低盖度灌木草本植物的环境,有一定的空间分离。

笼养白冠长尾雉(Syrmaticus reevesii)夏秋季节行为节律研究

2016年的夏季6月和秋季10月采用瞬时扫描法对湖南省野生动物救护繁育中心笼养的4只白冠长尾雉(Syrmaticus reevesii)的行为节律开展研究,其中6月观测期间处于笼养白冠长尾雉繁殖期,与10月的非繁殖时期正好做出对比。研究共记录白冠长尾雉5类14种行为,在夏季和秋季,运动类行为均是5类行为中行为频次百分比最高的(夏季18.8%～59.8%,秋季30.8%～42.2%)。由于适应了笼舍及人类活动,警觉类行为的百分比相对偏低(夏季10.2%～17.1%,秋季5.2%～10.4%),在繁殖后期的夏季中略高于秋季。另外,笼养白冠长尾雉的取食策略与野生个体相比亦出现了不同,生存在人工补给的笼舍中,其能量的补充比较便利,所以在取食行为上,频次的百分比排列在5类行为的中等水平(夏季4.2%～26.4%,秋季12.9%～26.0%)。通过笼养白冠长尾雉的行为节律研究,可为物种的保护和繁育提供科学依据,反映存在的问题,提出保护建议,对白冠长尾雉的物种发展壮大有重要意义。

白颈长尾雉栖息地的植被特征研究

构成白颈长尾雉阔叶林型栖息地的植被乔木层主要树种为壳斗科植物 ,灌木层植物以山茶科、禾本科和樟科等科的种类为主 ,草本层植物以蕨类、禾本科和莎草科为主 .在针阔混交林型栖息地 ,壳斗科植物仍占乔木层主要树种的相当比例 ,但针叶树种的比例明显上升 ,该类型栖息地的灌木层和草本层植物组成特征与阔叶林型栖息地相似 .在针叶林型栖息地中 ,乔木层的主要树种为马尾松、杉木、福建柏和圆柏等 ,并有较多的阔叶灌木树种构成灌木层 ,草本层中以蕨类为主 .白颈长尾雉栖息地选择的最主要影响因素是乔木层盖度 .

白颈长尾雉的夜宿地选择研究

1995年 3至 6月 ,采用无线电遥测和样方等技术 ,对浙江省开化县水坞山区白颈长尾雉的夜宿地选择进行研究 .研究结果显示 ,白颈长尾雉在针叶林内分散夜宿 ,多选择在陡坡、高乔木层盖度较大和地面较空旷地带作为其夜宿地 .夜宿树一般为夜宿地内胸径较大、相对高大和树冠盖度较高的树木 .影响白颈长尾雉夜宿地选择的最重要因素是隐蔽条件 .

白颈长尾雉栖息地小区利用度影响因子研究

1995年 10月至 1996年 5月在浙江省开化县水坞山区采用无线电遥测技术和样方法对白颈长尾雉栖息地小区利用度影响因子进行研究 ,结果显示 :(1)食物和水因子是决定白颈长尾雉栖息地利用度的最主要因子 ,随季节的变化 ,影响白颈长尾雉栖息地小区利用度的食物种类亦随之变化。 (2 )冬季 ,灌木层因子的作用大于草本层因子 ;春季 ,草本层因子的作用大于灌木层因子。(3)白颈长尾雉栖息地小区利用度多元回归模型 :冬季 :Y=0 .0 4 4 438X1+ 0 .0 0 35 19X2 - 0 .0 0 15 4 2 X3 + 0 .0 74 5 33;冬末春初 :Y=0 .5 2 6 6 6 0 X1+ 0 .0 4 144 4X2 - 0 .0 0 5 5 2 2 X3 - 0 .5 85 0 4 1;春季 :Y=0 .10 2 32 4 X1+ 0 .10 176 3X2 - 0 .0 0 2182 X3 + 0 .12 0 0 4

官山白颈长尾雉活动区域海拔高度的季节变化及其影响因素

2005年7月至2006年12月,采用无线电遥测的方法在江西官山国家级自然保护区内对5只白颈长尾雉(Syrmaticus ellioti)的活动区域进行了跟踪监测,结合GIS技术和样方法分析其活动区域的海拔高度随季节变化的影响因素。结果表明:海拔400-600m为白颈长尾雉全年最适活动带,其主要活动区域的海拔高度呈现明显的季节变化:夏秋季最高,春季次之,冬季最低。水源是其冬季喜欢在低海拔区域活动的最主要原因;而距林缘距离、灌木数量、灌木种数、灌木盖度等与增加食物丰富度和隐蔽度相关的因子是促使它们在春季和夏秋季倾向于在高海拔区域活动的主要因素。

针阔混交林内白颈长尾雉栖息地利用的影响因子研究

采用无线电遥测和样方法对针阔混交林内白颈长尾雉栖息地利用的影响因子进行了定量研究，结果显示：（1）白颈长尾雉对其栖息地的利用有较强的选择性；（2）白颈长尾雉主要在阳坡活动，春、秋、各三季活动地坡度较平缓，夏季略陡。该雉栖息地利用受水源距离的影响；（3）各种灌木层、草本层和地被层团子在白颈长尾雉栖息地中食物条件和隐蔽条件方面发挥重要作用。大叶白纸扇、油茶、山、野楷杷、毛冬青、格药柃、乌饭、木、蔷薇科植物、苔草、三脉叶紫菀和厥类植物是影响白颈长尾雉栖息地利用的重要植物种类；昆虫和土壤动物作为白颈长尾雉的食物在栖息地的利用中亦起着重要作用。

浙江西部白颈长尾雉栖息地片断化研究

1994年 8～ 10月和 1995年 11～ 12月 ,采用直接测定法 ,对浙江西部开化县小北垅、水坞和严村山区的白颈长尾雉 (Syrmaticusellioti)栖息地片断化现状进行调查 ,提出了片断化程度指数 (F)与运算公式 ,并采用该指数对白颈长尾雉栖息地片断化程度进行测定与分析。栖息地的片断化与丧失将导致白颈长尾雉栖息地面积的减少。

贵州雷公山自然保护区白颈长尾雉栖息地研究

笔者于１９９２年２～８月、１９９３年１～４月和１９９４年７月先后３次对雷公山自然保护区白颈长尾雉的分布和栖息地类型，各类型栖息地特征、以及栖息地现状进行了研究。结果表明：①该地区白颈长尾雉的栖息地类型有常绿阔叶林，常绿、落叶阔叶混交林，落叶阔叶林，针阔混交林，疏林灌丛和高灌木林等。②该雉栖息地主要分布在海拔１０００～１９００ｍ左右的地段，各类栖息地的植被盖度特征上有较大变化。栖息地植被各层次的盖度特征变化又和栖息地的隐蔽与食物条件等有关。③雷公山自然保护区的白颈长尾雉栖息地巳经成为岛屿状、片段化分布。

白颈长尾雉的活动区和日活动距离

1994～2006年期间，通过无线电遥测、GPS技术在浙江开化水坞山区、开化古田山自然保护区和江西官山自然保护区对白颈长尾雉的活动区与日活动距离进行了研究．结果显示：白颈长尾雉的月活动区大小为0．024～0．243km^2，且以冬季的月活动区面积最大，其中1月份活动区面积变小，随后逐月增大；但进入繁殖期，白颈长尾雉月活动区面积再次变小．活动区大小的变化受到气候、食物条件、栖息地类型及其片段化程度等因素的影响．冬季平均日活动距离和最大日活动距离均小于春季的，而均大于初夏．

官山保护区白颈长尾雉栖息地适宜性评价

2009年4月-2009年5月和2009年12月-2010年1月,在江西官山国家级自然保护区对白颈长尾雉(Syrm aticus ellioti)繁殖期和越冬期的栖息地进行调查。通过实地调查,结合已有研究结果,确定了官山自然保护区白颈长尾雉栖息地适宜性评价因子,即植被类型、海拔、坡度和坡向等4个栖息地因子。基于"被利用生境-可获得生境比较法",以对各评价因子不同梯度的资源选择指数为依据,确定了白颈长尾雉适宜性评价准则。应用ArcG IS 9.3空间分析功能和栖息地片断化指数,对官山保护区白颈长尾雉栖息地进行了适宜性评价。结果表明:在官山自然保护区适宜白颈长尾雉繁殖的栖息地斑块有502个,总面积为3307 hm2,占保护区总面积的28.6%,分离度指数和片断化程度指数分别为0.365和0.912;适宜白颈长尾雉越冬的栖息地斑块有514个,总面积2755 hm2,占保护区总面积的23.8%,分离度指数和片断化程度指数分别为0.443和0.939。官山保护区白颈长尾雉栖息地片断化较严重,片断化现象在白颈长尾雉越冬期加剧。因此,迫切需要采取措施白颈长尾雉现存栖息地进行保护,特别是要高度重视其越冬栖息地的保护。

白颈长尾雉春季扩散活动的影响因子

2002年10月—2003年6月和2003年11月—2004年6月,采用无线电遥测、GPS技术、SAW模型和样方法,对浙江省古田山自然保护区白颈长尾雉的扩散过程及其影响因子进行了研究。结果表明:①白颈长尾雉在春季均存在持续约为16～23d的扩散活动,其扩散直线距离在1.5～2.1km。②扩散过程中白颈长尾雉对其运动路线存在选择性,在其扩散进入和未进入区域之间,草本盖度、乔木种数、灌木种数、灌木枝下高、灌木数量和草本数量存在极显著差异;距水源距离、坡度、乔木数量、乔木枝下高和草本种数存在显著差异。③灌木种数、灌木枝下高、坡度和灌木数量等与障碍有关的因子是影响白颈长尾雉扩散活动的重要因子。

白冠长尾雉冬季夜栖行为与夜栖地利用影响因子的研究

1999年12月至2000年3月，通过野外观察、无线电遥测以及样方调查对河南董寨鸟类自然保护区白冠长尾雉的夜栖行为和冬季夜栖地进行了研究.结果表明，在研究地区针阔混交林和人工针叶林是其冬季夜栖的2种主要植被类型.由于冬季落叶乔木的盖度显著降低，所以白冠长尾雉的夜栖地的使用受到限制，夜栖树种类也主要限于常绿针叶树种.调查显示，冬季白冠长尾雉的夜栖地一般靠近水源、远离林缘，位于山体中上部坡度较大的地方，夜栖树通常高大并且盖度良好.对夜栖地变量进一步分析表明，冬季影响白冠长尾雉夜栖地利用的主要因素依次为：海拔、栖位下方盖度、灌木密度、坡度、栖枝高度、夜栖区乔木的密度和胸径、栖位上方盖度、坡向以及距水源的距离等.白冠长尾雉的夜栖行为受到多种因素的影响，比较重要的有季节、天气和性别因素.为保护白冠长尾雉的夜栖地，保护区应重视人工针叶林的保护.

黑颈长尾雉春夏夜栖地特征与差异性分析

【目的】分析黑颈长尾雉春夏夜栖地特征与差异,为其保护和管理提供合理的依据和建议。【方法】2012年春季和夏季,通过直接观察法测量12个黑颈长尾雉夜栖地,利用无线电遥测跟踪黑颈长尾雉(6♂,2♀)测量34个夜栖地,其中春季20个,夏季26个。【结果】对春季和夏季的夜栖树进行卡方检验表明,春季和夏季的栖树选择差异不显著(χ~2=0.34,P=0.51),黑颈长尾雉主要以油桐为夜栖树,其次为西南木荷、杉木和云南松。栖树选择与样地内乔木的数量和种类相关性很低(r=0.401,P=0.028)。利用独立样本T检验和Mann-Whitney U检验黑颈长尾雉春季和夏季夜栖地数据的差异性,除了灌木盖度、栖树胸径、栖枝上方盖度和栖枝高度存在差异性(P<0.05),其余生态变量差异不显著(P>0.05)。利用主成分分析法,比较影响黑颈长尾雉春季和夏季夜栖地选择的主要因子,夏季为栖枝因素、地理性因素和干扰因素;春季为栖枝因素和安全性因素。【结论】黑颈长尾雉春夏季节夜栖地的特征有差别,夜栖树微环境的安全性和舒适性影响夜栖地的利用。

丙型肝炎病毒基因组多样性的分子基础及临床意义

丙型肝炎病毒（ＨＣＶ）是一种有包膜的单股正链ＲＮＡ病毒，其编码的前体多聚大蛋白可加工成具有不同功能的结构蛋白和非结构蛋白。研究结果表明，ＨＣＶ核酸序列的变异很大，因此存在许多不同的基因型和亚型。了解ＨＣＶ基因组多样性的分子基础，对ＨＣＶ的病原学、流行病学、诊断和治疗都具有重要的指导意义。

白颈长尾雉在江苏省宜溧山区的新发现

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