田鼠亚科啮齿动物的社会组织、交配制度和栖息地的关系

田鼠亚科的两种啮齿动物黄腹田鼠(prairie vole,Microtus ochrogaster)和草甸田鼠(meadow vole,M.pennsylvanicus)是社会组织完全不同的两个种。黄腹田鼠原始栖息地在北美北部中央大片毗连的草原上,生境较稳定。该种易于接触,其交配为一夫一妻制,并成对结合。雌雄鼠共居在同一巢穴里,雌鼠只与配对雄鼠交配,雄鼠回避非配对的外来雌鼠,并分担巢穴的营造和维修,同时也照管幼仔,包括饲养、聚集和挽救。幼体断乳后,多数仍留在巢穴里,并协助照管下一窝幼仔,不参加繁殖,只有那些从家族群中扩散出去,并与无亲缘关系的雄鼠交配的雌性青年鼠才能繁殖后代。这种交配制度的作用是扩散种群,子代为寻求婚配而从家族群中离去,从而避免局部种群密度增高,以及由此造成的食物短缺。由于繁殖对是由非亲缘关系的个体结合而成,避免了近亲繁殖及由此带来的遗传性有害影响。     

温度和月相对多齿围沙蚕的群浮诱导

多毛类沙蚕科动物具有特殊的繁殖方式,即在性成熟期,沙蚕发生变态成为异沙蚕体(heteronereis)。在交配前,异沙蚕体离开栖息地游到海面上的现象,称为群浮(swarming)。Goerke,Kinne 和 Haunschild 等人对琥珀刺沙蚕(Neanthes succinea)和褐片阔沙蚕(Platynereis dumerilii)的研究表明这两种沙蚕的群浮受温度和月相的控制。     

虫草蝠蛾生物学研究

虫草蝠蛾(Thitarodes armoricanus Oberthur)的卵于室温11.4℃时,历期32—47天,在潮湿滤纸表面孵化率高达93.2%.幼虫在土壤中生活三年多才化蛹.蛹期35—50天.成虫寿命3—12天.卵在发育中有变色现象,即由白→黄→灰→黑.变色过程一般需6—13小时.幼虫栖息地表以下10—25cm土层中,适宜在地温5—10℃、土壤含水量70%左右条件下生活.蛹腹节有棘突,助蛹活动.成虫白天不吃不动,黄昏时活动,无趋光性,也无趋化性.雌雄交配自傍晚至深夜,经4—10小时.一雌产卵400—800粒.     

雄性黄山短尾猴(Macaca thibetana)攻击支持雌性以换取交配回报

生物市场理论认为动物个体之间通过某种协定交换有价值的商品,使双方均受益。该研究采用目标动物法、行为取样法和连续记录法,对浮溪黄山野生猴谷鱼鳞坑短尾猴(Macaca thibetana)A1群(YA1群)和A2群(YA2群)成年个体在非繁殖季节(2011年8月—12月)和繁殖季节(2012年2月—5月)的雄性攻击支持雌性行为和交配行为进行研究,探讨雄性攻击支持雌性与交配之间的关系。两猴群在繁殖季节和非繁殖季节雄性攻击支持雌性与交配行为均呈显著正相关;YA2群繁殖季节与非繁殖季节攻击支持后交配频次均显著高于随机交配;YA1群在繁殖季节攻击支持后交配频次与随机交配频次差异不显著,但在非繁殖季节攻击支持后交配频次显著高于随机交配,说明短尾猴成年雄性攻击支持雌性可以换取与该雌性个体的交配回报。本研究验证了生物市场理论中社会行为存在交换,首次证明了雄性攻击支持可以换取雌性的交配回报,为进一步研究雄性性竞争与雌性选择提供了实例。     

影响大猿叶虫交配持续时间的因素

为了探明影响大猿叶虫Colaphellus bowringi Baly交配持续时间的因素,在室内系统观察了一天中的交配起始时间、日龄、交配经历、体重、雄虫密度和温度对交配持续时间的影响.结果表明：一天中不同时间交配的成虫,其交配持续时间有显著差异,在上午8:00的交配持续时间最长,随着时间的推移,交配持续时间逐渐缩短,两者之间呈负相关.不同日龄成虫的交配持续时间有显著差异,且与成虫日龄呈明显的正相关.当雄虫与有交配经历的雌虫交配,其交配持续时间明显长于与未交配的雌虫交配,但雄虫的交配经历对交配持续时间没有影响.交配持续时间随着雌、雄体重的增加而延长,但没有显著差异.在雄虫高密度条件下的交配持续时间明显短于低密度下的交配持续时间.在22℃时成虫的交配持续时间最长,其次是25℃,28℃下最短, 温度间的交配持续时间有明显差异.这些结果表明在自然条件下大猿叶虫的交配持续时间受到许多因素的影响.     

云南老君山金丝厂滇金丝猴群栖息地的环境特征

通过在云南省西北部老君山金丝厂滇金丝猴栖息地设置标准样方,调查该滇金丝猴群栖息地的环境特点,研究表明,金丝厂滇金丝猴群栖息地是以长苞冷杉和毛柱红棕杜鹃为主的亚高山寒温性针叶林,该群落发育较好,高大树木占有较大的比例,林下箭竹密度大.这些特征对该滇金丝猴群的安全和生存起着重要的作用.     

山东日照地区刺猬的生态习性调查

本文研究记述了刺猬的栖息地,活动范围、食性食量、换毛（刺）期,休眠交配、产仔育仔,幼仔生长等情况,对了解刺猬在自然界的生态作用具有重要意义。     

甜菜夜蛾交配行为和能力

在(27±1)℃,光周期L14∶D10的条件下对甜菜夜蛾I>Spodoptera exigua的交配行为及能力进行了研究。结果表明：成虫在羽化当晚即可进行交配,交配率以羽化后头三个晚上的较高(>82%),但从第4天起则显著下降。成虫一天中的交配时间出现于23:30～05:30之间,交配高峰出现在01:30～02:30和03:00～04:00 之间, 其中以第1高峰的发生频率较高。成虫交配持续时间从22～191 min不等,但以30～60 min的为多(40.8%, n=97), 60～90 min的次之(19.4%),超过180 min的较少(10.2 %)。另外,交配持续时间与蛾龄紧密相关。蛾龄越大,交配持续的时间越长,且差异显著。雄蛾一生的交配能力由1～11次不等,但受性比的影响显著：在性比为1∶1的条件下,雄蛾平均交配次数仅为3.0 次,而在2♀∶1♂至5♀∶1♂时,则增加到5.1～6.0 次。雌蛾交配比例及次数受性比的影响也很大：没有交配的雌蛾比例从1∶1时的8.3%增加到5♀∶1♂时的32%,仅交配一次的比例从16.7%增加到38.7%,而交配≥5 次的比例则从 25%下降到0。最后,对这些结果在甜菜夜蛾防治中应用的可能性进行了讨论。     

甘薯天蛾的交配行为及其影响因素

了解甘薯天蛾的交配行为习性是人工大量繁殖甘薯天蛾的关键之一。在室内条件下,采用行为生态学的研究方法,系统观察了甘薯天蛾的交配行为习性,对不同雌雄性比、空间环境和光照周期下甘薯天蛾的交配行为规律和交配率进行了研究。结果表明：甘薯天蛾在羽化后第2天开始交配,在第2天交配率最高,达到53.9%,随后交配率逐步降低;雌蛾只交配1次。在一天中,成虫交配时间发生在22:00—5:00,高峰期在22:00—24:00和3:00—5:00。雌雄性比、光照周期和空间环境对甘薯天蛾的交配成功率具有明显的影响,在全黑暗和全光照条件下不会发生交配行为,表明其交配行为发生需要一定光照和暗期的刺激;当雌雄性比为1∶1时交配率最高,为54.7%,在其他性比条件下甘薯天蛾的交配率明显降低;在空间规格为1.20 m×0.60 m×0.35 m和2.00 m×2.00 m×2.00 m时能够顺利交配,其交配成功率>62.0%。在人工繁殖甘薯天蛾的生产过程中,建议单对放养,采取适当的交配空间和应用自然光照周期营造条件将取得较好的交配产卵效果。     

白马雪山自然保护区响古箐滇金丝猴的交配行为

灵长类交配模式是灵长类社群结构和婚配制度的重要表征之一,其研究有助于了解灵长类社群结构和两性交配策略。2013年11月至2014年10月,我们对云南白马雪山国家级自然保护区一人工辅助投食滇金丝猴群进行了观察研究,采用焦点动物取样法和全事件记录法收集了雌雄个体交配相关的行为数据,主要包括邀配对象、交配过程、持续时间和回合数,以及参与交配的雌雄对在交配结束后的相互理毛的持续时间和回合数。研究结果表明:研究群滇金丝猴全年均有交配行为,交配高峰期在7-9月,两性参与交配的积极性和对季节变化的响应不同;交配主要由雌性通过邀配发动(76%),交配高峰期也是雌性邀配的高峰期;雄性爬跨频次(年均0.43次/月,n=5)和射精爬跨比(年均19%,n=5)在全年无显著变化。交配行为发生的典型表现为:雌性通过小跑或跳跃进入雄性视线范围内,爬伏呈臀向雄性邀配;雌猴爬伏时离雄猴的远近距离不同(1 m vs.2-5 m:69%vs.31%)会影响其邀配成功率(1 m vs.2-5 m:68%vs.40%);若一次邀配失败,雌猴可能会连续爬伏邀配(最多4次),连续多次邀配的成功率显著高于单次邀配(79%vs.52%)。交配结束后雌性会主动为雄性理毛,但雌性主动理毛与交配是否射精无关。     

Time, gender, and seasonality in vervet activity: A chronobiological approach

A chronobiological approach has been used to highlight the issue of how climatic factors and breeding seasonality may affect male and female diurnal activity budget. We investigated gender differences for vervet monkeys in the diurnal distribution of feeding, locomotion, inactivity, and social grooming within and between birth, pre-mating, and mating seasons. The main climatic traits were that days were shorter, drier, and cooler in the mating season. Non-parametric statistics showed that female activities changed with time of day to a greater extent than did male activities. When the constraints imposed by climatic factors and mate competition increased, from the birth to the mating season, male maintenance activities were more independent of the time of day whereas females continued to vary. Gender differences in timing were therefore greater in the mating season, except for social grooming; males and females were more coordinated in diurnal timing of their grooming in the mating season. It is argued that these changes may result in reduced levels of male-female contest competition, and may be related to higher levels of male-female socialization in the mating season. Finally, it is inferred that an out-of-phase synchronization between inactivity and feeding for males in the birth season, and for females in the mating season, may result from each sex investing more time feeding at the expense of resting in those periods.     

白头鹎繁殖期鸣声行为的研究

利用计算机鸣声分析技术对白头鹎繁殖期的求偶炫耀鸣唱、晨鸣、遇险告警惊叫等鸣声的特征进行分析，以探讨鸣声特征与行为的关系。白头鹎繁殖前期待有的求偶炫耀鸣唱婉转多变，频率一般变化在１．９－３．５ｋＨｚ之间，另一类出现在繁殖前、中期的炫耀鸣唱急促而响亮，音节变化快且频率高（变化范围约３．４－４．４ｋＨｚ）；最鸣和繁殖期特有的其它鸣声，音节清晰，响度较大，能量主要集中在２－３ｋＨｚ之间，可能具有宣告领域的     

An effective rotational mating scheme for inbreeding reduction in captive populations illustrated by the rare sheep breed Kempisch Heideschaap

Within breeds and other captive populations, the risk of high inbreeding rates and loss of diversity can be high within (small) herds or subpopulations. When exchange of animals between different subpopulations is organised according to a rotational mating scheme, inbreeding rates can be restricted. Two such schemes, a breeding circle and a maximum avoidance of inbreeding scheme, are compared. In a breeding circle, flocks are organised in a circle where each flock serves as a donor flock for another flock, and the same donor-recipient combination is used in each breeding season. In the maximum inbreeding avoidance scheme, donor-recipient combinations change each year so that the use of the same combination is postponed as long as possible. Data from the Kempisch Heideschaap were used with computer simulations to determine the long-term effects of different breeding schemes. Without exchanging rams between flocks, high inbreeding rates (>1.5% per year) occurred. Both rotational mating schemes reduced inbreeding rates to on average 0.16% per year and variation across flocks in inbreeding rates, caused by differences in flock size, almost disappeared. Inbreeding rates with maximum inbreeding avoidance were more variable than with a breeding circle. Moreover, a breeding circle is easier to implement and operate. Breeding circles are thus efficient and flexible and can also be efficient for other captive populations, such as zoo populations of endangered wild species.     

Effect of temperature and humidity on reproductive performance of crossbred sows in Thailand

This study investigated the influence of season, temperature, and humidity on the reproductive performance of sows under tropical conditions. Data were collected from 11 sow herds from January 2001 to June 2002. Temperature and humidity were recorded daily for each herd from January 2001 to February 2002. Semen used was collected from boars housed in conventional open-air stables (six herds) or in evaporative cooling stables (five herds). A total of 43,875 farrowing records were included in the statistical analysis. Fourteen-day moving averages of daily maximum temperature and minimum humidity were calculated and merged with each reproductive record. ANOVA was applied to the reproductive records. In addition to the fixed effects included in the statistical models (e.g. system, season, parity, temperature, and humidity), the random effect of herd within system was included. The total number of piglets born was analyzed in relation to the climate at previous weaning (NTB-w), at mating (NTB-m), and at farrowing (NTB-f). The housing system of the boars had no significant effect on any of the reproductive variables analyzed. Season (2-month periods) as well as parity number had a significant effect on all reproductive variables analyzed. Increased length of previous lactation had a significant and favorable effect (P < 0.001) on NTB-w, NTB-m, and weaning-to-first-service interval. There were indications that high temperature and humidity (recorded at the herd level) at previous weaning/mating or at farrowing had negative effects on litter size, but these negative influences were not consistent.     

Vagabond males and sedentary females: spatial ecology and mating system of the speckled rattlesnake (Crotalus mitchellii)

We used radiotelemetric data and behavioural observations to characterize seasonal (mating versus post‐mating seasons) and sexual variation in movement patterns, as well as to examine some of the ecological factors contributing to the evolution of the mating system in a venomous predator from the Mojave Desert of North America, the speckled rattlesnake, Crotalus mitchellii. Mating occurs in spring from late April to early June, shortly after emergence from hibernation, when snakes are predictably aggregated around the dens. Males and females travelled further per unit time in the mating season compared to the post‐mating season. Males also travelled longer distances per unit time than females in the mating and post‐mating seasons, and males with larger home ranges during the mating season had more potential mating partners. The results obtained suggest that males actively locate females during the mating season, and that the drastic increase in distance travelled by males during the mating season may be caused by strong male–male competition for access to females, probably because of the limited availability of sexually receptive females. Furthermore, males fight for access to females, and males of larger size are more likely to acquire females. Therefore, sexual selection apparently acts on two different male phenotypic traits: investment in mate‐searching activities and male body size. The present study demonstrates that combining quantitative spatial analyses and behavioural observations in an explicit temporal context can significantly advance our understanding of the ecology and evolution of organismal mating systems. © 2011 The Linnean Society of London, Biological Journal of the Linnean Society, 2011, 103 , 681–695.     

Male mating effort in the viviparous scorpionfish,Sebastiscus marmoratus

Males of some internally fertilizing fishes devote reproductive efforts not only to mating activities but also to sperm production. Male reproductive efforts of the viviparous scorpionfish,Sebastiscus marmoratus, an ambush predator usually remaining on the substrate, were studied at a rocky coast in southern Japan. During the mating season in early winter, males actively visited and courted several females, and interacted aggressively with other males. Females remained stationary. Seasonal changes in somatic and gonad weights suggested that males devote reproductive efforts to such mating activities, rather than to sperm production. Because females almost always ignored frequent courtships from several males, resulting in infrequent copulations, and would rarely copulate with multiple males, sperm competition is not likely to be intensive. Accordingly, males may increase mating efforts while retaining small testis size (max. GSI=0.4%), smaller than that in many externally fertilizing fishes. The reproductive effort of this species is compared with that of other viviparous fishes.     

Reproductive performance of lactating dairy cows following estrus synchronization regimens with PGF2alpha and progesterone

The objective of this study was to evaluate the reproductive performance of lactating cows in seasonal dairy herds after estrus synchronization with PGF2alpha (PG) with or without supplementation with progesterone (P4). In Trial 1, synchronized cows (S1; n = 521) were compared with untreated control cows (C; n = 518) in 5 herds. Estrus of cows in the S1 group was synchronized with 2 treatments of PG (Lutalyse) 13 d apart. The breeding season started 2 d after the second PG. Cows were first bred by AI for 7 wk and then herd sires were used. Compared with C cows, estrus synchronization in the treated cows reduced the conception rate to first AI (61.1 vs 70.5%; P < 0.01) and the intervals from start of the breeding season to conception for cows conceiving to AI (11.0 vs 14.6 d; P < 0.05) or to both AI and natural mating (16.5 vs 18.4 d; P < 0.05). There was no effect on conception rate to second AI (68.8%), on pregnancy rate by Day 24 (72.3%) or Day 49 (86.3%) of the breeding season, or on the percentage of cows not pregnant at end of the breeding season (5.0%). In Trial 2, effects of P4 supplementation before the second PG on reproductive performance were evaluated in 4 herds. Estrus of each cyclic cow was synchronized with PG as in Trial 1. Half of the cows in each herd were treated with an intravaginal P4 device (CIDR) for 5 d before the second PG (S2+P4, n = 608), whereas the remaining half received no CIDR treatment (S2, n = 593). Compared with S2 cows, P4 treatment increased the estrous response rate to the second PG (89.6 vs 82.9%; P < 0.01), the conception rate to first AI (65.1 vs 59.7%; P = 0.07), the pregnancy rate by Day 6 of the breeding season (59.3 vs 49.0%; P < 0.001), and reduced the intervals from start of the breeding season to conception for cows conceiving to AI (8.6 vs 10.4 d; P < 0.10) or to both AI and natural mating (12.7 vs 16.4 d; P < 0.01). Treatment with a used CIDR from Days 16 to 21 after start of breeding to re-synchronize returns to service had no effect on conception rate to first or second AI but may decrease the conception rate to second AI in cows previously treated with CIDR. In conclusion, estrus synchronization with the double PG system can reduce fertility, while P4 supplementation for 5 d before the second PG can improve estrous response and overall reproductive performance. Stage of the estrous cycle at the time of the second PG can affect fertility following synchronization.     

Sexual maturation and seasonal changes in reproductive phenomena of male Japanese monkeys (Macaca fuscata) at Takasakiyama

The authors examined testis tissues and blood which were collected from free-ranging Japanese monkeys of the Takasakiyama troop during four periods in 1971 (mating season: late January-early February; early birth season: June; late birth season: August; and intermediate season between birth season and mating season: October), and studied their sexual maturation and seasonal changes in reproductive phenomena. Results of observations on the testis and plasma testosterone concentration were in agreement with each other. Except in a few cases, the testis was infantile until October at 4 years old and developed rapidly during the following two months, and spermatogenesis started in the mating season at 4 years old (in exceptional cases, it started one year earlier). After the following two-year process of sexual maturation, monkeys attained full maturation in the mating season at 6 years old. For seasonal changes in reproductive phenomena also, results of observations on the testis and the plasma testosterone were in agreement with each other. Activity of the testis repeated an annual cycle of being maximal in the mating season, regressing in the birth season, and redeveloping toward the following mating season. Such seasonal changes were noticeably observed with 4- to 6-year-old animals, which are in the process of sexual maturation.     

Effects of size and sex on the courting success and foraging behaviour of Embiotoca jacksoni

To test life-history theory that body size and sex should influence how animals allocate time to foraging versus reproductive activities, we measured the effects of size and sex on courting success and foraging behaviour of black surfperch Embiotoca jacksoni off Santa Catalina Island, southern California. Observations of focal fish were made while snorkelling, during which the length of each fish (estimated to the nearest cm), total duration of courting encounters and foraging rates were recorded. We made observations during and outside the mating season. Courtship occurred only between pairs and its duration increased with the size of both the male and female. Although males would court females that were smaller or larger than themselves, pairs that were closely matched in size had long courting sessions, whereas those that differed considerably in size courted only briefly. Small fish foraged more than larger fish, both during and outside the mating season. Males and females foraged at similar rates outside of the mating season, but during the mating season males reduced their foraging rates to less than half that seen outside of the mating season, whereas females continued to forage at the same rate. This decrease in foraging rate of males during the mating season was seen in all sizes of males but was proportionally greatest in the largest males. These observations indicate that males trade off time spent on foraging for time spent courting during the mating season, whereas females do not.     

反捕食不能充分解释獐的集群行为(英文)

我在江西鄱阳湖国家自然保护区研究了獐 (Hydropotesinermis)的集群行为并检验了集群是动物反捕食对策的假说。如果这个假说成立 ,我们则可以做三个预测 :(1)集群大小应与植物覆盖度成负相关 ;(2 )集群动物比单独活动的动物有更多的时间取食 ;(3)集群动物与单独活动的动物相比 ,用于警戒的时间较少。结果表明 ,獐的集群在交配季节最大而在产仔季节最小 ,獐在短草期比在高草期倾向于形成较大集群。因此 ,本研究支持了第一个预测。但是 ,集群的獐和单独活动的獐在取食和警戒时间分配上并无差异。因此 ,本研究不支持第二和第三个预测。时间收支 (timebudget)分析显示 ,在非交配季节 ,带幼仔的雌性用于取食的时间较少但走动频繁。在交配季节 ,与单独活动的雌性相比 ,与雄性在一起的雌性用于取食的时间较少 ,而单独活动的雄性却比与雌性在一起的雄性花较多的时间用于观望寻找雌性。鉴于獐集群行为的复杂性 ,本研究认为 ,獐并不只因反捕食而集群 ,其它社会和生态因子在决定獐的集群行为中也很重要。