首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到17条相似文献,搜索用时 218 毫秒
1.
2004年2~5月在四川省南充市嘉陵江中上游的河漫滩内对白鶺鴒(Motacilla alba)的繁殖习性进行了研究。结果表明:白鶺鴒2月开始繁殖;雌雄参与筑巢,营巢期7~10 d;主要雌鸟孵卵,孵卵期13~14 d,上午8:00~9:00时孵卵出现一次高峰;窝卵数(5.00±0.52)(n=16)枚,孵化率42.5%;雌雄参与育雏,育雏期15~16 d,下午18:00~19:00时育雏出现一次高峰,日育雏次数(112.9±48.6)(n=17),育雏时间间隔(5.60±5.34)min(n=1 584);雏鸟形态生长曲线呈“S”型。  相似文献   

2.
四川南充地区白鸰的繁殖习性   总被引:2,自引:0,他引:2  
2004年2~5月在四川省南充市嘉陵江中上游的河漫滩内对白鹡鸰(Motacilla alba)的繁殖习性进行了研究.结果表明白鹡鸰2月开始繁殖;雌雄参与筑巢,营巢期7~10 d;主要雌鸟孵卵,孵卵期13~14 d,上午800~900时孵卵出现一次高峰;窝卵数(5.00±0.52)(n=16)枚,孵化率42.5%;雌雄参与育雏,育雏期15~16 d,下午1800~1900时育雏出现一次高峰,日育雏次数(112.9±48.6)(n=17),育雏时间间隔(5.60±5.34)min(n=1 584);雏鸟形态生长曲线呈"S"型.  相似文献   

3.
四川南充市区白腰文鸟的巢址选择与雏鸟的生长发育   总被引:5,自引:0,他引:5  
20 0 2年 1 1月~ 2 0 0 4年 4月在四川省南充市区内对白腰文鸟 (Lonchurastriata)的繁殖习性进行了研究。结果表明 ,白腰文鸟 2月下旬开始繁殖 ;影响巢址选择的主要因素 9种 ;雌雄参与筑巢 ,营巢期 5~ 6d;雌雄轮流孵卵 ,孵卵期 1 3~ 1 5d ,整个种群的孵卵高峰期在 4~ 6月 ,窝卵数 (5 .61± 0 . 78) (n =1 8)枚 ,孵化率 86 0 7% ;雌雄均参与育雏 ,育雏期 1 8~ 2 1d ,雏离巢率 82 43 % ,繁殖生产力 3. 0 1 ,育雏两个高峰期 :上午 8:0 0~ 1 0 :0 0时和下午 1 6:0 0~ 1 8:0 0时 ,日育雏次数 (1 2 . 77± 6 .0 7) (n =3 4) ,育雏时间间隔(0 . 96± 0 . 42 )h(n =1 61 ) ;雏鸟形态生长曲线呈“S”型。  相似文献   

4.
2008年和2009年的4~8月,在四川省雅江县帕姆岭对棕背黑头鸫Turdus kessleri的繁殖生态进行了初步观察.该鸟繁殖期在4月下旬至7月上旬,营树上巢,营巢树种为高山栎Quercus aquifolioides和鳞皮冷杉Abies squamata.窝卵数为2~3枚(n=7),平均卵重(7.96±0.03)g(n=8),卵长径(32.7±0.17)mm,短径(21.9±0.13)mm(n=13),雌雄共同孵卵,以雌性为主,孵化期为15~17 d(n=2),孵化率为83.3%(n=18).雌雄共同育雏,以雄性为主,雏鸟出飞后主要在巢周围的林下或灌从活动,这时亲鸟仍会对幼鸟喂食.在同一繁殖季对巢有重复利用的现象.  相似文献   

5.
2015年4~9月,采用焦点动物取样法,通过人工观察及监控设备记录,在青海省祁连县研究了2窝在人工巢中繁殖的大■(Buteo hemilasius)行为。构建了大■亲鸟及雏鸟在繁殖期的行为谱,将亲鸟繁殖期内的行为划分为12项30种,将雏鸟的行为划分为9项25种。研究发现,大■繁殖期开始于4月中下旬,持续至8月中旬结束,平均(112.0±2.0)d(n=2);将繁殖期划分为孵卵前期、孵卵期、育雏期及雏鸟成熟期。利用单因素方差分析(One-way ANOVA)比对了雌雄亲鸟之间,以及不同时期间亲鸟、雏鸟的行为时间分配。结果显示,(1)雌雄大■之间的行为时间分配在孵卵前期及孵卵期差异不显著(P0.05),在育雏期及雏鸟成熟期差异显著(P0.05)。在这两个时期,雌性栖停行为所占比例显著高于雄性(P0.01),而捕食行为占比显著低于雄性(P0.01)。(2)雌性大■行为时间分配在不同时期均变化显著(P0.05),雄性大■行为时间分配在育雏期与雏鸟成熟期间差异不显著,其余各个时期间差异显著(P0.05)。(3)大■雏鸟行为时间分配在育雏期与成熟期之间差异显著(P0.05)。  相似文献   

6.
邓腾  张瑞  许华磊  刘伟 《动物学杂志》2016,51(5):743-750
2015年4~9月,采用焦点动物取样法,通过人工观察及监控设备记录,在青海省祁连县研究了2窝在人工巢中繁殖的大(鵟)(Buteo hemilasius)行为.构建了大(鵟)亲鸟及雏鸟在繁殖期的行为谱,将亲鸟繁殖期内的行为划分为12项30种,将雏鸟的行为划分为9项25种.研究发现,大(鵟)繁殖期开始于4月中下旬,持续至8月中旬结束,平均(112.0±2.0)d(n=2);将繁殖期划分为孵卵前期、孵卵期、育雏期及雏鸟成熟期.利用单因素方差分析(One-way ANOVA)比对了雌雄亲鸟之间,以及不同时期间亲鸟、雏鸟的行为时间分配.结果显示,(1)雌雄大(鵟)之间的行为时间分配在孵卵前期及孵卵期差异不显著(P>0.05),在育雏期及雏鸟成熟期差异显著(P<0.05).在这两个时期,雌性栖停行为所占比例显著高于雄性(P<0.01),而捕食行为占比显著低于雄性(P< 0.01).(2)雌性大(鵟)行为时间分配在不同时期均变化显著(P< 0.05),雄性大(鵟)行为时间分配在育雏期与雏鸟成熟期间差异不显著,其余各个时期间差异显著(P< 0.05).(3)大(鵟)雏鸟行为时间分配在育雏期与成熟期之间差异显著(P<0.05).  相似文献   

7.
2003年5~7月,在甘肃省莲花山自然保护区对中国特产鸟类宝兴歌鸫的繁殖,包括孵卵节律及育雏行为进行了观察。宝兴歌鸫在孵卵期平均每天出巢13.6次(n=7),出巢时间平均为12.0min(n=93),日活动期平均为855.5min(n=7)。亲鸟出巢时间的长度和环境温度呈明显的正相关(r=0.35,P=0.002,n=77)。宝兴歌鸫雌雄共同育雏,两只雏鸟的喂食频次分别为1.33次/h和0.98次/h。  相似文献   

8.
本研究于2021年3~9月,采用目标观察和全事件记录法,对广西防城港市钦州湾八路水湿地黑翅长脚鹬(Himantopus himantopus)的繁殖习性进行全过程观察记录。黑翅长脚鹬的栖息生境主要在盐田、虾塘和鱼塘,而巢主要分布在盐田生境。共发现39巢,雌雄共同营巢,按照主要巢材将其巢分为干草巢、碎石巢、泥皮巢和牛毛毡草巢4种;巢材包括禾本科(Gramineae)和莎草科(Cyperaceae)植物以及碎石、贝壳等;巢外径为(23.3±10.7)cm,巢内径为(11.2±1.9)cm,巢深为(1.6±0.5)cm,巢高为(6.5±4.3)cm(n=39);筑巢需(3±2)d(n=6)。窝卵数2~4枚,1~2 d产1枚卵,7 d内产完满窝卵(n=6)。雌雄均参与孵卵,雄性孵卵时间比雌性长,但二者差异不显著(P> 0.05),雄性(8 550±245.9)min,雌性(7 530±263.3)min,孵卵期为(25±2)d(n=6)。育雏期(26±3)d(n=6),雌雄轮流育雏,育雏前、中期(雏鸟1~20d日龄),雌性育雏时间比雄性长,是雄性的2倍,育雏后期(雏鸟大于20 d日龄),...  相似文献   

9.
湖北兴山红嘴相思鸟繁殖生态初报   总被引:2,自引:1,他引:2  
2005年4月~2007年8月,在湖北省兴山县龙门河地区,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,红嘴相思鸟在此地区的繁殖时间为4月中旬至7月下旬。巢多营于山坡上、山谷中的乔木林、灌木林遮蔽下的箬竹(Indocalamus wilsoni)和小灌木上,也营巢于农田边、山间小路旁、林间空地的箬竹丛或灌丛中。巢材主要有细树枝、细树根、细藤、箬竹叶、茅草叶、细草茎、青苔等。雌雄鸟共同筑巢,筑巢过程较为迅速,一般5~7d即可完成。雌鸟每天产一枚卵,产卵时间一般在清晨。窝卵数3.41±0.80(n=61)。孵卵期11~13d(n=6)。雏鸟晚成性,雌雄共同育雏,育雏期9~10d。雏鸟发育十分迅速,但离巢时身体发育尚未完善。红嘴相思鸟在此地区的繁殖成功率约为22.95%(n=61)。  相似文献   

10.
鹟莺属(Seicercus)鸟类的繁殖资料十分缺乏。2015年4~8月,采用录像全程监控的方法,在贵州宽阔水国家级自然保护区,对4巢栗头鹟莺(S.castaniceps)的繁殖过程进行了完整观察。栗头鹟莺的繁殖期主要集中在5~7月,巢址选择专一性较强,均筑巢于公路边的土坎内壁,距路(1.3±1.2)m,巢为球状侧开口,巢材主要为新鲜苔藓及细草根,巢高(2.2±0.6)m,巢宽(10.9±1.5)cm,杯宽(3.3±0.5)cm,巢深(9.5±1.9)cm,杯深(5.5±1.0)cm。窝卵数(4.5±0.6)枚(4~5枚),卵重(0.92±0.04)g,卵长(14.30±0.30)mm,卵宽(11.22±0.23)mm,卵体积(0.92±0.05)mm3(n=18)。亲鸟在产满窝卵后开始孵卵,孵卵期12~13 d,在孵卵中期(第5~9天)亲鸟的孵卵时间开始增加,翻卵次数增多,在孵卵后期(第10~13天)亲鸟的孵卵时间和翻卵次数基本保持不变。育雏期13~14 d。雌、雄共同育雏,雏鸟在3日龄时,体重和跗跖开始显著增长,在7日龄时,增长速度变缓。孵化率为88.9%(16/18),营巢成效为100%,出飞成效为3.3只/巢。  相似文献   

11.
2007~2009年在黑龙江中南部地区对绿翅鸭(Anas crecca)繁殖生态习性进行了观察。绿翅鸭在黑龙江属夏候鸟,每年3月末4月初迁来,10月上旬迁离,所观察的4对绿翅鸭居留期约6个月。迁来时成群停留在湖泊及江的冰面上,开江以后散去,繁殖期间,绿翅鸭的配偶关系为一雄一雌,巢址多选择离水域较近的草丛或灌木丛中,所观察的4巢,巢都比较简单,筑巢时间为(5.5±1.0)d(n=4)。巢筑成后的(3.25±0.50)d开始产卵。每窝70~12枚不等,平均(9.80±2.21)枚(n=4)。卵重平均(28.70±0.72)g(n=39),最后一枚卵产出后(2.50±0.577)d(n=4),开始孵卵,孵卵期约为22~26 d不等,平均孵卵期为(24.25±1.17)d(n=4),平均孵化率为79.5%±29.98%。幼鸟为早成鸟,育雏期为(29.75±1.70)d。  相似文献   

12.
This study compared the onset and duration of the breeding season of female red deer (Cervus elaphus scoticus) and its hybrids with either wapiti (Cervus elaphus nelsoni) or Père David's (PD) deer (Elaphurus davidianus). In Trial 1 (1995), adult red deer (n=9), F1 hybrid wapiti x red deer (n=6) and maternal backcross hybrid PD deer x red deer (i.e., 14 PD; n=9) were maintained together in the presence of a vasectomised red deer stag for 12 months. They were blood-sampled daily or three times weekly so that concentration profiles of plasma progesterone could be used to identify the initiation, duration and cessation of luteal events. There was clear evidence of luteal cyclicity between April and September, with the transition into breeding associated with an apparent silent ovulation and short-lived corpus luteum (i.e., 6-12 days) in every hind. A significant genotype effect occurred in the mean time to first oestrus (P<0.05), with wapiti hybrids and 14 PD hybrids being 9 and 5 days earlier than red deer. Between six and nine oestrous cycles were exhibited by each hind, with no difference in mean cycle length (19.5-19.6 days) between genotypes (P0.10). The overall length of the breeding season was significantly longer for wapiti hybrids (143 days) than for either red deer (130 days) and 14 PD hybrids (132 days, P<0.05).In Trial 2 (1998), adult red deer (n=5), 14 PD hybrids (n=5) and F(1) PD x red deer hybrid (n=5) hinds were maintained together from mid-February (late anoestrus) to early May, in the presence of a fertile red deer stag from 1 April. Thrice-weekly blood sampling yielded plasma progesterone profiles indicative of the onset of the breeding season. Again, there was a significant genotype effect on the mean time to first oestrus (P<0. 05), with F(1) PD hybrids and 14 PD hybrids being 13 and 5 days earlier than red deer. However, conception dates were influenced by the timing of stag joining, and were not significantly different between genotypes. The results indicate genetic effects on reproductive seasonality. However, seasonality observed for PD x red deer hybrids more closely approximated that of red deer than PD deer.  相似文献   

13.
高黎贡山白尾梢虹雉繁殖生态观察   总被引:2,自引:0,他引:2       下载免费PDF全文
2002-2004年连续3个春季在高黎贡山自然保护区对白尾梢虹雉(Lophophorus sclateri)的繁殖习性进行了观察,对白尾梢虹雉的巢、卵和雏鸟进行了详细描述.在高黎贡山南段,白尾梢虹雉的产卵孵化始于3月底,止于5月初,窝卵数为2~3枚,孵卵期为28 d.窝卵数低、适宜巢址缺乏有可能是白尾梢虹雉种群增长缓慢...  相似文献   

14.
达赉湖自然保护区疣鼻天鹅繁殖行为初步观察   总被引:1,自引:0,他引:1  
2006年8~11月和2007年4~8月,在内蒙古达赉湖国家级自然保护区对疣鼻天鹅(Cygnus olor)的繁殖数量、繁殖行为及迁飞时间进行研究.结果显示,疣鼻天鹅通常4月初迁来,10月底迁离,居留期长达196 d左右(n=3).4月下旬开始求偶,时间一般为上午进行,没有固定求偶地点,每次求偶所需时间平均172 s(n=8).主要依靠炫耀行为来保卫和标记领域.2006与2007年的繁殖种群数量均为12只(6对),2006年育成幼鸟数分别为4、2、4、3、6、3只;2007年仅有3对繁殖成功,幼鸟数分别为4、4、5只.  相似文献   

15.
16.
Administration of FSH increases the number of developing follicles, and affects oocyte health and cleavage rate. To determine the optimal level of FSH treatment, studies were conducted during the normal breeding season and seasonal anestrus. In Experiment 1, ewes were implanted with SyncroMate-B (SMB; norgestomet) for 14 days during the breeding season. Beginning on day 12 or 13 after SMB implantation, ewes were treated with saline (control; n=10), or treated with FSH for two days (2D; n=9) or three days (3D; n=10). In Experiment 2, conducted during seasonal anestrus, ewes were implanted with SMB for 14 days (n=23) or were not implanted (n=26). The SMB-implanted and nonimplanted ewes were assigned to one of three treatments as in Experiment 1: control (n=13), 2D (n=21) or 3D (n=15). In Experiments 1 and 2, ewes were laparotomized to count the number of follicles < or = 3 mm and > 3 mm and to retrieve oocytes. Healthy oocytes from each treatment were used for IVF. In Experiment 3, ewes (n=6) were implanted twice with SMB for 14 days during seasonal anestrus. Ewes were injected with FSH for 2 days, and the oocytes were collected and fertilized as in Experiments 1 and 2. In Experiment 1, FSH-treatment increased (P < 0.05) the number of follicles > 3 mm, the number of oocytes retrieved from follicles < or = 3 mm and > 3 mm, the proportion of healthy oocytes, and the number of oocytes used for IVF. Oocytes from control and 2D ewes had greater (P < 0.01) cleavage rates than 3D ewes (68% and 71% vs. 42%). In Experiment 2, implanted and nonimplanted ewes had similar (P > 0.05) numbers of follicles, total oocytes, and healthy oocytes; therefore, data were combined. The FSH treatment increased (P < 0.01) the number of follicles > 3 mm, and the number of oocytes recovered from follicles > 3 mm. The recovery rate of oocytes and the percentage of healthy oocytes were similar for control and FSH-treated ewes. The cleavage rate in Experiment 2 ranged from 4 to 16%. In Experiment 3, the cleavage rate for ewes treated twice with SMB was 27% which tended to be greater (P < 0.07) than for the 2D ewes that received one SMB implant in Experiment 2. These data indicate that FSH increased the number of developing follicles and the number of healthy oocytes retrieved from ewes during the breeding season and seasonal anestrus. However, cleavage rates during seasonal anestrus were lower than during the normal breeding season in both FSH-treated and control ewes. Treatment of ewes for 2 days with FSH resulted in a greater cleavage rate than treatment of ewes for 3 days.  相似文献   

17.
The objective of this study was to investigate the effect of supplementing previously treated anovulatory anestrous (AA) dairy cows with progesterone delivered intra-vaginally for 7 days, commencing 4 or 5 days after insemination, on first-service conception rate. A clinical trial, involving 990 AA dairy cows in 14 dairy herds, was conducted during the 2002/2003 breeding season. On Day -8, all cows were treated with a progesterone-containing intravaginal device (Cue-Mate). The devices were removed on Day -2; on Day -1, all cows were given 1mg of estradiol benzoate im. Cows in the control group (n = 499) received no further treatments. Cows in the treatment group (n = 491) that had been inseminated on Day 0 or 1 had a new device inserted (on Day 4 or 5), with removal of the device after 7 days. First-service conception rates for the control and treatment groups were not different (35.0% versus 36.7% respectively; P = 0.41). Furthermore, there was no difference in conception rates between cows that had devices inserted on Day 4 or 5 (31.3% versus 37.2% respectively; P = 0.45). In conclusion, supplementation of previously treated AA dairy cows with an intravaginal progesterone-releasing device for 7 days (commencing 4 or 5 days after insemination) did not significantly improve first-service conception rate.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号