不同性别杂色山雀血浆活性氧和超 氧化物歧化酶与繁殖成效的关系

氧化应激是指活性氧等氧化剂的产生大于抗氧化防御系统清除能力时的不平衡状态,是个体应对内外环境刺激的适应性生理机制,是衡量个体身体状况的综合性生理指标。为探究氧化应激对鸟类繁殖的预测作用,本研究测量了育雏前期(雏鸟6～8日龄)杂色山雀(Sittiparus varius)亲鸟血浆氧化应激分子活性氧和超氧化物歧化酶含量,通过巢箱监测获得了杂色山雀的繁殖参数,采用偏最小二乘回归法分析杂色山雀氧化应激对其雏鸟出飞率和繁殖成功率的预测作用。结果显示,雌性杂色山雀亲鸟血浆活性氧浓度与雏鸟出飞率(n=13,P 0.05)、繁殖成功率(n=13,P 0.01)均呈显著负相关关系,即血浆活性氧水平越低的雌性杂色山雀,其繁殖巢雏鸟出飞率和繁殖成功率越高;雌性杂色山雀亲鸟血浆超氧化物歧化酶浓度与雏鸟出飞率(n=13,P0.05)、繁殖成功率(n=13,P 0.05)无显著相关关系。本研究中这两项血浆氧化应激标记物与杂色山雀雄性亲鸟繁殖成效间均无显著的相关关系。该结果表明,杂色山雀雌性亲鸟活性氧水平对其繁殖成效具有显著的预测作用。     

繁殖期杂色山雀应激水平的皮质酮浓度 与繁殖投入的关系

皮质酮是鸟类重要的糖皮质激素,在其适应环境变化及压力应激反应中起重要的调节作用。非应激状态时,鸟类血浆皮质酮浓度处于基线水平,当鸟类面对应激刺激时,血浆皮质酮浓度迅速升高,应激水平的皮质酮对鸟类个体生存至关重要。然而,目前繁殖季鸟类血浆应激水平的皮质酮浓度变化及其与繁殖投入关系的研究结果存在种间差异,仍需在不同的物种中进行实验研究。本研究分析了繁殖季杂色山雀（Sittiparus varius）血浆应激水平的皮质酮浓度在繁殖阶段的变化,及育雏期亲鸟血浆应激水平的皮质酮浓度与繁殖参数和亲鸟育雏投入的关系。结果显示,与求偶期相比,育雏期杂色山雀亲鸟血浆应激水平的皮质酮浓度极显著升高（P < 0.001）,雌性与雄性亲鸟之间无显著性差异（P > 0.05）;雌性与雄性亲鸟血浆应激水平的皮质酮浓度与繁殖参数、亲鸟递食投入、巢防卫行为均无显著相关性（P > 0.05）。     

杂色山雀亲代喂食与子代乞食间的行为

在育雏期,晚成鸟的子代一般都是由双亲共同来抚育,子代为了更好地存活,会用自己的方式竞争获得更多的食物和更好的生存空间,同时亲代也会根据子代的乞食信号来分配食物。2011年3～7月采用针孔摄像技术录制了杂色山雀(Parus varius)育雏期巢内亲代与子代间的行为,统计了亲鸟站位、雏鸟站位、雏鸟乞食强度及亲鸟的喂食情况等数据。分析结果表明:(1)雌雄亲鸟在巢中的站位各有特点,雄鸟在整个育雏期都喜欢站在距离巢口较近的位置;雌鸟站位不太固定,前期离巢口相对较远,中期和后期离巢口相对较近;(2)雏鸟离亲鸟越近,乞食强度越大,获得食物的机会就越多;离亲鸟越远的雏鸟越不爱乞食,所以站位对雏鸟的食物获得影响最大;(3)雌鸟承担主要的育雏任务,喂食频率远大于雄鸟;(4)育雏期的不同阶段雏鸟乞食强度、亲鸟喂食频率变化很大:中期雏鸟乞食强度最大,亲鸟喂食频率最高,后期雏鸟乞食强度最弱;(5)整个育雏期雌性亲本没有表现出明显的偏爱行为,但雄性亲本在中、后期更偏爱体型大的雏鸟。可见杂色山雀子代的行为和体型大小影响着亲代的食物分配,亲代也会根据雏鸟日龄调整站位和喂食行为。     

杂色山雀(Parus varius)亲代喂食与子代乞食间的行为交流

在育雏期,晚成鸟的子代一般都是由双亲共同来抚育,子代为了更好地存活,会用自己的方式竞争获得更多的食物和更好的生存空间,同时亲代也会通过子代的乞食信号来分配食物。2011年3月-7月采用针孔摄像技术录制了杂色山雀(Parus varius)育雏期巢内亲代与子代间的行为交流,统计了亲鸟站位、雏鸟站位、雏鸟乞食强度及亲鸟的喂食情况等数据。分析结果表明：(1)雌雄亲鸟在巢中的站位各有特点：雄鸟在整个育雏期都喜欢站在距离巢口较近的位置;雌鸟站位不太固定,前期离巢口相对较远,中期和后期离巢口相对较近;(2)雏鸟离亲鸟越近,乞食强度越大,获得食物的机会就越多;(3)杂色山雀主要是雌鸟担任育雏任务,喂食频率远大于雄鸟;(4)育雏期的不同阶段雏鸟乞食强度、亲鸟喂食频率变化很大：中期雏鸟乞食强度最大,亲鸟喂食频率最高,后期雏鸟乞食强度最弱;(5)整个育雏期雌性亲本没表现出明显的偏爱行为,但雄性亲本在中期表现出了偏爱大的雏鸟。     

巢中的位置对鸲岩鹨亲鸟递食率的影响

2 0 0 2年 4～ 8月在中国科学院海北高寒草甸生态系统定位站研究了鸲岩鹨 (Prunellarubeculoides)亲鸟的递食率与巢中位置的关系。结果表明 :亲鸟的总递食率对巢中的每个具体位置有显著变化(Kruskas WallisH =1 4 63 3 ,P <0 0 1 ,df=3 ) ;雄性和雌性对巢中的位置有不同的响应 ,雄性对巢中的每个具体位置的递食率有显著差异 (H =1 6 72 0 ,P <0 0 1 ,df=3 ) ,而雌性递食率差异不显著 (H =3 5 5 7,P>0 0 5 ,df=3 ) ;雄鸟和雌鸟间递食的方式随着日龄和日时间变化也有显著差异。结果证实巢中的位置能够影响鸲岩鹨亲代资源的分配 ,同时也证实了鸲岩鹨双亲对巢中的位置有不同的响应。     

大鵟繁殖期的行为及时间分配

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).     

大■繁殖期的行为及时间分配

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)。     

秃鹫巢内育雏期亲鸟与幼鸟行为及时间分配

2016和2017年,采用焦点动物取样法及全事件记录法,在新疆和静县巴仑台镇研究了4个繁殖巢的秃鹫(Aegypius monachus)繁殖行为。通过红外相机和人工观察,构建了秃鹫巢内育雏期的行为谱,将秃鹫亲鸟的行为划分为9类33种,将雏鸟行为划分为6类28种。结果表明,亲鸟喂食次数的最高峰出现在12:30~13:30时,随后在15:30~18:30时之间出现一个小高峰。在育雏期,亲鸟行为以护幼、观望和警戒为主,雏鸟则以休息和观望为主。将巢内育雏期分为三个阶段:育雏前期(4~5月)、育雏中期(6月)、育雏后期(7月),运用单因素方差分析(one-way ANOVA)检验不同育雏阶段亲鸟、雏鸟行为时间分配的差异。结果显示,育雏前期与后期之间亲鸟的行为时间分配差异不显著(P0.05),前期与中期和中期与后期之间,亲鸟的行为时间分配差异均显著(P0.01);育雏前期、中期与后期的雏鸟行为时间分配差异均显著(P0.01)。国内秃鹫繁殖主要面临食物短缺、人类活动干扰等威胁。     

陕西红碱淖遗鸥育雏行为和雏鸟生长

2012年5～7月,应用e-Science信息技术和标记法,对陕西神木县红碱淖(N 38°13′～ 39°27′,E 109°42′～110°54′)遗鸥(Larus relictus)的育雏行为和雏鸟生长发育进行了研究.结果表明,雏鸟由双亲共同承担喂食.育雏前期,亲鸟采取直接喂食、食物呕吐于巢边和在巢中间断性喂食这3种喂食模式;亲鸟昼间平均喂食(0.706±0.036)次/h,夜间平均喂食(0.469±0.024)次/h,双亲在喂食频次上无显著差异(F=32.54,P＞0.05).育雏后期,主要采取双亲直接喂食和亲鸟把食物呕吐于地面上,由雏鸟自己取食的喂食模式;亲鸟昼间平均喂食(0.416±0.021)次/h,夜间平均喂食(0.331±0.018)次/h,亲鸟喂食次数与雏鸟的日龄存在相关性(r =0.074,P＜0.05).随着雏鸟日龄的增长,暖雏次数趋于减少,而在炎热晴天、降雨和大风等天气状况下,暖雏时间和护雏行为都增强.雏鸟20日龄后未再观察到暖雏行为.雏鸟体长及外部器官的形态学参数适合用Gompertz曲线方程拟合.同时,与其近缘种黑嘴鸥(L.saundersi)的育雏行为和雏鸟生长进行了比较.     

两种雀形目鸟类的窝雏数处理实验:检验Lack假说

于1997—1999年在位于青海省北部的中国科学院海北高寒草甸生态系统定位站进行。选择地面筑巢的小云雀(Alauda gulgula)和灌丛筑巢的黄嘴朱顶雀(Acanthis flavirostris)为代表进行窝雏数处理实验。根据Lack假说的预报检验(1)常见窝卵数是否是最大生产力窝卵数;(2)窝雏数处理对雏鸟质量和亲鸟投入是否产生影响;(3)两种鸟的响应方式是否相同。其结果如下：①小云雀和黄嘴朱顶雀的常见窝卵数分别是3和5枚。年间变化不明显,用幼鸟出飞率作为生产力,两种鸟的扩增窝幼鸟出飞率下降,常见窝卵数(分布频率最高)等同于最大生产力窝卵数;②小云雀的幼鸟的生长参数不随窝雏数的改变而变化．而黄嘴朱顶雀有明显变化．说明窝雏数处理对后者幼鸟质量有明显影响。③用递食率作为亲鸟投资指标,小云雀亲鸟的递食率随窝雏数的增加而增加,但雏期不变;而黄嘴朱顶雀递食率不变,但雏期延长。④扩增窝雏数后,两种亲鸟表现出不同的响应方式,小云雀表现为提高单位时间递食次数,而黄嘴朱顶雀延长育幼时间。这两种方式不是通过影响雏鸟质量就是通过影响亲鸟存活率来降低子代和亲代的适合度。结果支持了自然选择将窝卵数调节到亲鸟能喂活最大数量子代的限度。即常见窝卵数就是最大生产力窝卵数的Lack假说。     

Temporal changes in food resources,parental feeding and breeding success of Heron Island silvereyes,Zosterops lateralis chlorocephala

The influences of the temporal change in food supply on the parental feeding effort and breeding success of silvereyes,Zosterops lateralis chlorocephala, was investigated on Heron Island, Australia. Food supply (arthropods and figs) declined as the breeding season progressed. The parental feeding rate and growth of nestlings were lower when food supply was poor. When available, dominant pairs fed their young more figs and fewer arthropods than lower ranking pairs. Dominant pairs raised heavier young than lower ranking pairs when food supply was poor, while there were no significant differences between them when food supply was rich. When food supply was rich, pairs delivering greater amounts of arthropods reared nestlings better, whereas feeding more figs did not improve growth of nestlings. When food supply was poor, pairs spending a longer time at the nest reared nestlings better.     

Food availability and the male's role in parental care in double-brooded Treecreepers Certhia familiaris

The aim of this work was to examine differences in paternal and maternal care in a double-brooded, monogamous species, the Treecreeper Certhia familiaris, in relation to food availability. As a measure of parental care, we recorded the hourly feeding activity of parents when the nestlings from their first and second breeding attempts were 7 and 12 days old. Feeding frequency of the first brood increased with the age of the nestlings and also with the brood size when 12 days old. While the feeding activities of the females were similar with respect to the first and second broods, the males were less active and failed to provide any food to their nestlings in 15 cases out of 28 second broods. In spite of this, the fledglings from the second broods were heavier than those in the first. Such a pattern of male behaviour was possible without being a disadvantage to the chicks because the food supply increased during the breeding season and the female could provide food for the young alone. Thus paternal care was particularly important in times of poor food supply, i.e. during the first brood, where the extent of these males' activity in feeding the 7-day-old nestlings was positively correlated with the average mass of the nestlings. Our results support the idea that the male of monogamous, altricial bird species often makes important contributions to raising the young, especially during periods when it is difficult for the female to do so alone. Males show flexibility in their pattern of parental care, and male Treecreepers change their contribution to the first and second broods within the same season.     

Mate desertion by male Great Reed Warblers Acrocephalus arundinaceus at the end of the breeding season

Male Great Reed Warblers usually take part in the care of offspring as nest defenders and by feeding young, but at the end of the breeding season they desert their mates with eggs or nestlings. Deserted females continue offspring care. Desertion does not depend on the male's mated status (polygynous or monogamous) nor on his past breeding success. Deserted females compensate for the loss of their partners by increasing the frequency of food-bringing, resulting in a reduction in the amount of time the nestlings are brooded. Although desertion may lead to increased rates of offspring mortality through predation, breeding success of deserted females was high, especially if the male assisted during the early stages. Deserters pay costs by giving up the chance of additional matings and by lowering the reproductive success of existing mates. Male warblers reduce the former cost by choosing the season of desertion and the latter is lowered by the female's high parental ability. A deserter was found to start moulting while his mate was still feeding his nestlings, and an earlier start to the moult may be the primary benefit that he gains. Male Great Reed Warblers usually take part in the care of offspring as nest defenders and by feeding young, but at the end of the breeding season they desert their mates with eggs or nestlings. Deserted females continue offspring care. Desertion does not depend on the male's mated status (polygynous or monogamous) nor on his past breeding success. Deserted females compensate for the loss of their partners by increasing the frequency of food-bringing, resulting in a reduction in the amount of time the nestlings are brooded. Although desertion may lead to increased rates of offspring mortality through predation, breeding success of deserted females was high, especially if the male assisted during the early stages. Deserters pay costs by giving up the chance of additional matings and by lowering the reproductive success of existing mates. Male warblers reduce the former cost by choosing the season of desertion and the latter is lowered by the female's high parental ability. A deserter was found to start moulting while his mate was still feeding his nestlings, and an earlier start to the moult may be the primary benefit that he gains. Male Great Reed Warblers usually take part in the care of offspring as nest defenders and by feeding young, but at the end of the breeding season they desert their mates with eggs or nestlings. Deserted females continue offspring care. Desertion does not depend on the male's mated status (polygynous or monogamous) nor on his past breeding success. Deserted females compensate for the loss of their partners by increasing the frequency of food-bringing, resulting in a reduction in the amount of time the nestlings are brooded. Although desertion may lead to increased rates of offspring mortality through predation, breeding success of deserted females was high, especially if the male assisted during the early stages. Deserters pay costs by giving up the chance of additional matings and by lowering the reproductive success of existing mates. Male warblers reduce the former cost by choosing the season of desertion and the latter is lowered by the female's high parental ability. A deserter was found to start moulting while his mate was still feeding his nestlings, and an earlier start to the moult may be the primary benefit that he gains. Male Great Reed Warblers usually take part in the care of offspring as nest defenders and by feeding young, but at the end of the breeding season they desert their mates with eggs or nestlings. Deserted females continue offspring care. Desertion does not depend on the male's mated status (polygynous or monogamous) nor on his past breeding success. Deserted females compensate for the loss of their partners by increasing the frequency of food-bringing, resulting in a reduction in the amount of time the nestlings are brooded. Although desertion may lead to increased rates of offspring mortality through predation, breeding success of deserted females was high, especially if the male assisted during the early stages. Deserters pay costs by giving up the chance of additional matings and by lowering the reproductive success of existing mates. Male warblers reduce the former cost by choosing the season of desertion and the latter is lowered by the female's high parental ability. A deserter was found to start moulting while his mate was still feeding his nestlings, and an earlier start to the moult may be the primary benefit that he gains. Male Great Reed Warblers usually take part in the care of offspring as nest defenders and by feeding young, but at the end of the breeding season they desert their mates with eggs or nestlings. Deserted females continue offspring care. Desertion does not depend on the male's mated status (polygynous or monogamous) nor on his past breeding success. Deserted females compensate for the loss of their partners by increasing the frequency of food-bringing, resulting in a reduction in the amount of time the nestlings are brooded. Although desertion may lead to increased rates of offspring mortality through predation, breeding success of deserted females was high, especially if the male assisted during the early stages. Deserters pay costs by giving up the chance of additional matings and by lowering the reproductive success of existing mates. Male warblers reduce the former cost by choosing the season of desertion and the latter is lowered by the female's high parental ability. A deserter was found to start moulting while his mate was still feeding his nestlings, and an earlier start to the moult may be the primary benefit that he gains.     

Male parental care promotes early fledging in an open-nester, the Willow Warbler Phylloscopus trochilus

The importance of male parental care to female reproductive success was investigated in the monogamous Willow Warbler Phylloscopus trochilus by removing the male parent at two different stages of the breeding cycle. Females that were widowed at the start of egg-laying continued breeding and managed to raise their brood on their own with no apparent reductions in numbers fledged or fledgling body-mass. The widowed females compensated for the loss of male assistance by increasing their own food provisioning rate as compared with control females. However, widows spent less time brooding the small young, and the growth rate of nestlings was reduced. In nests where the male parent was removed 7 days after the eggs hatched, the subsequent growth rate of nestlings was still affected, which suggests that male care is influential throughout the nestling period. On average, broods reared by widows fledged 2 days later than did broods of control females. An extension of the nestling period may appreciably affect reproductive success, since 68% of nests failed due to predation, mostly during the nestling period. We suggest that the main role of male parental care in the Willow Warbler is to assure a high growth rate of nestlings, which leads to early fledging and hence a reduced risk of nest predation.     

The Influence of Exogenous Testosterone on the Dynamics of Nestling Provisioning in Dark-Eyed Juncos

In many songbird species, application of exogenous testosterone (T) during the breeding season has the general effects of reducing male parental investment and increasing allocation of time and energy to mating. Most studies record the number of feeding trips made by males as a function of their hormone treatment, but few have investigated the ways in which testosterone affects the dynamics of male and female provisioning behavior or the quantity of food delivered by males. We attempt to fill these gaps in our understanding of testosterone and male parental effort by utilizing data from a long‐term study on the behavioral endocrinology of the dark‐eyed junco (Junco hyemalis). We found that male and female feeding rates covaried positively, although to different degrees, throughout the nestling period, but that this relationship was degraded in pairs in which males were given T implants. We also found that the coefficients of variation in the duration of intervals between successive feeding trips by males and females were highly positively related in broods of older nestlings. Male hormone treatment, however, had no effect on the coefficients of variation in either male or female feeding intervals. Finally, we examined the quantity of prey delivered by males and found no significant effect of hormone treatment.     

Different effects of age on reproductive performance in relation to breeding stage in Bull-headed Shrikes

The difference in the reproductive performance of males and females of the Bull-headed Shrike (Lanius bucephalus) according to age class, i.e. yearling and adult, was studied, and the age-related difference was examined according to parental feeding behavior. The clutch initiation date was not affected by the age class. Females that paired with an adult male laid more eggs per clutch than those paired with a yearling male. The age class of males affected the mass of nestlings at 6 days old, and the age class of females affected the mass of nestlings at 12 days old. The effects of the age of either parent independently were observed at different breeding stages. A change in the degree of nestling feeding peformed by the male and female parents occurred at some point between when the broods were 6 days and 12 days old. It is likely that this caused an effect of age at different stages of the breeding cycle. The effects of the age of the male parent are consistent with accounts of age-related reproduction in raptors where males provide resources to offspring. Individual improvements in foraging skills and/or courtship feeding rate are suggested to be possible explanations. Electronic Publication     

Mate desertion by male Great Reed Warblers Acrocephalus arundinaceus at the end of the breeding season

Male Great Reed Warblers usually take part in the care of offspring as nest defenders and by feeding young, but at the end of the breeding season they desert their mates with eggs or nestlings. Deserted females continue offspring care. Desertion does not depend on the male's mated status (polygynous or monogamous) nor on his past breeding success. Deserted females compensate for the loss of their partners by increasing the frequency of food-bringing, resulting in a reduction in the amount of time the nestlings are brooded. Although desertion may lead to increased rates of offspring mortality through predation, breeding success of deserted females was high, especially if the male assisted during the early stages. Deserters pay costs by giving up the chance of additional matings and by lowering the reproductive success of existing mates. Male warblers reduce the former cost by choosing the season of desertion and the latter is lowered by the female's high parental ability. A deserter was found to start moulting while his mate was still feeding his nestlings, and an earlier start to the moult may be the primary benefit that he gains.     

Females compensate for moult‐associated male nest desertion in Hooded Warblers

Uniparental offspring desertion occurs in a wide variety of avian taxa and usually reflects sexual conflict over parental care. In many species, desertion yields immediate reproductive benefits for deserters if they can re‐mate and breed again during the same nesting season; in such cases desertion may be selectively advantageous even if it significantly reduces the fitness of the current brood. However, in many other species, parents desert late‐season offspring when opportunities to re‐nest are absent. In these cases, any reproductive benefits of desertion are delayed, and desertion is unlikely to be advantageous unless the deserted parent can compensate for the loss of its partner and minimize costs to the current brood. We tested this parental compensation hypothesis in Hooded Warblers Setophaga citrina, a species in which males regularly desert late‐season nestlings and fledglings during moult. Females from deserted nests effectively doubled their provisioning efforts, and nestlings from deserted nests received just as much food, gained mass at the same rate, and were no more likely to die from either complete nest predation or brood reduction as young from biparental nests. The female provisioning response, however, was significantly related to nestling age; females undercompensated for male desertion when the nestlings were young, but overcompensated as nestlings approached fledging age, probably because of time constraints that brooding imposed on females with young nestlings. Overall, our results indicate that female Hooded Warblers completely compensate for male moult‐associated nest desertion, and that deserting males pay no reproductive cost for desertion, at least up to the point of fledging. Along with other studies, our findings support the general conclusion that late‐season offspring desertion is likely to evolve only when parental compensation by the deserted partner can minimize costs to the current brood.     

Parental Feeding Rates in the House Sparrow,Passer domesticus: Are Larger‐Badged Males Better Fathers?

Elaborated secondary sexual characteristics may reflect genetic quality or good health, either of which may be associated with an individual's competence as a parent. We examined whether female house sparrows (Passer domesticus) paired to large vs. small‐badged mates gain benefits in the form of increased parental care or improved nestling welfare. House sparrow nests where the male had been trapped and banded were observed for 1 h on at least 5 d during the peak growth period of nestlings. Male feeding shares, measured as the proportion of total feeds per chick made by the male, were marginally positively correlated with male badge size. Moreover, higher male shares of nestling feeding were associated with improved prospects for offspring survival, and a greater proportion of chicks fledged from the nests of larger‐badged males. These results suggest that females paired to large‐badged males gain direct benefits in the form of enhanced nestling survival, which presumably stem from factors associated with increases in the proportion of nestling feeding contributed by their mates.     

Reproductive parameters in relation to food supply in the whiskered tern ( Chlidonias hybrida )

It is generally accepted that breeding terns are sensitive to food supply and that their reproductive effort could be substantially affected by the availability and access to resources. In this study we examined reproductive parameters in the whiskered tern Chlidonias hybrida in relation to food supply during the courtship feeding period (food brought by males to females) over a 2-year period (2004–2005). We also studied whether the condition of the nestlings [body condition index (BCI)] was related to a proxy of the reproductive investment of the adults (the clutch size) during a season of food shortage. Behavioural observations showed a decrease in the intensity of male courtship feeding between years (2004 > 2005), and a strong shift in the relative abundance of the two prey groups (invertebrates/fish; invertebrate prey dropped from 88.0 to 49.3%) brought by males. This change in food delivery rates did not result in a delay in laying, but there was a significant difference in mean clutch size between years (2.71 ± 0.49 eggs in 2004 and 2.05 ± 0.78 eggs in 2005) without any within-year variation in relation to the laying dates. The egg size (volume and length) was related to the year (2004 < 2005), suggesting a trade-off in the quantity and the quality of eggs between the two seasons. We also found no evidence that the investment in a large clutch affected nestling BCI in the course of the food shortage season. Since many pairs (about 60%) interrupted breeding during the incubation stage, we assumed that parents that succeeded in rearing nestlings in these conditions were probably ‘high-quality’ individuals. Our results therefore showed that whiskered terns are sensitive to the varying food conditions they experienced throughout the courtship period. The diversity of prey types could be a key factor in the reproductive investment of this tern species.