三种旧大陆狐蝠科蝙蝠舌长度及结构比较

为探讨旧大陆食果和食蜜蝙蝠的食性类型不同是否造成其取食器官舌长度及结构的差异,本研究以2种食果蝙蝠犬蝠（Cynopterus sphinx）和棕果蝠（Rousettus leschenaultii）以及1种食蜜蝙蝠长舌果蝠（Eonycteris spelaea）为研究对象,比较了这3个物种间舌的差异。犬蝠、棕果蝠和长舌果蝠伸入直径为2 cm试管的最大舌长度L1（包括伸入试管的吻部和吻部以外的舌长）,分别为（29.19?0.52）mm、（35.05?0.82）mm、（49.34?1.64）mm;伸出吻端外部的舌长L3分别为（16.25?0.53）mm、（19.25?0.79）mm、（31.88?1.56）mm;与体重转换后的最大舌长度,即转换L1分别为（8.57?0.17）mm/3√g、（7.90?0.27）mm/3√g、（12.41?0.40）mm/3√g;与体重转换后的伸出吻端外部的舌长,即转换L3分别为（4.77?0.16）mm/3√g、（4.34?0.22）mm/3√g、（8.01?0.38）mm/3√g;与体重转换后的解剖舌长分别为（5.56?0.16）mm/3√g、（5.35?0.14）mm/3√g、（6.65?0.38）mm/3√g。此5个参数种间比较均差异显著,食蜜类的长舌果蝠的5个参数均显著长于食果类犬蝠和棕果蝠的。通过比较3种蝙蝠的舌结构发现,长舌果蝠的舌尖尖细且具有毛刷状丝状乳头结构,舌面及两侧凹槽较多;犬蝠和棕果蝠的舌尖钝圆,舌面乳头和凹槽较少而平缓。本文结果表明,旧大陆食蜜蝙蝠与食果蝙蝠在舌长度和舌结构上存在明显差异,可能与捕食行为上的差异有关。     

狐蝠科3种蝙蝠舌长度及结构比较

为探讨旧大陆食果和食蜜蝙蝠的食性类型不同是否造成其取食器官舌长度及结构的差异,本研究以2种食果蝙蝠犬蝠(Cynopterus sphinx)和棕果蝠(Rousettus leschenaultii)以及1种食蜜蝙蝠长舌果蝠(Eonycteris spelaea)为研究对象,比较了这3个物种间舌的差异.犬蝠、棕果蝠和长舌果蝠伸入直径为2 cm试管的最大舌长度L1(包括伸入试管的吻部和吻部以外的舌长)分别为(29.19±0.52)mm、(35.05±0.82) mm、(49.34±1.64) mm;伸出吻端外部的舌长L3分别为(16.25±0.53)mm、(19.25±0.79) mm、(31.88 ± 1.56) mm;与体重转换后的最大舌长度,即转换L1分别为(8.57±0.17) mm/g1/3、(7.90 ±0.27) mm/g1/3、(12.41 ±0.40) mm/g1/3;与体重转换后的伸出吻端外部的舌长,即转换L3分别为(4.77±0.16) mm/g1/3、(4.34±0.22) mm/g1/3、(8.01 ±0.38) mm/g1/3;与体重转换后的解剖舌长分别为(5.56 ±0.16) mm/g1/3、(5.35 ±0.14) mm/g1/3、(6.65±0.38)mm/g1/3.此5个参数种间比较均差异显著,食蜜类的长舌果蝠的5个参数均显著长于食果类犬蝠和棕果蝠的相应参数.通过比较3种蝙蝠的舌结构发现,长舌果蝠的舌尖尖细且具有毛刷状丝状乳头结构,舌面及两侧凹槽较多;犬蝠和棕果蝠的舌尖钝圆,舌面乳头和凹槽较少而平缓.本文结果表明,旧大陆食蜜蝙蝠与食果蝙蝠在舌长度和舌结构上存在明显差异,可能与捕食行为的差异有关.     

两种果蝠对光叶桑(Morus macroura)果实的取食及种子传播

从2005年3月到2006年5月,在中国科学院西双版纳热带植物园沟谷雨林保护区内研究了两种果蝠——棕果蝠（Rousettus leschenaulti）和犬蝠（Cynopterus sphinx）取食光叶桑（Morus macroura）果实的行为、夜栖息地分布、散布种子方式及范围等。借助月光对果蝠的行为进行直接观察,发现它们的取食活动一般在天黑20～40min开始,取食高峰发生在22：00～22：30和23：00～23：30之间,这两个取食高峰期平均取食次数（平均值±标准误）为（13．5±2．5）和（15．0±2．3）次,最低的取食频率发生在19：00～19：30和20：30-21：00之间,分别取食（0．2±0．2）和（0．7±0．5）次。果蝠很少在母树上取食成熟的果实,相反它们用嘴叼下果实并携带到夜栖息地去进食,通常这些夜栖息地是具有密闭树冠、密集枝条的树种。夜栖息地在母树周围的分布根据环境中适合它们栖息的树种和分布而决定,不同母树周围其夜栖息地分布具有非常大的变异与空间异质性。钝叶榕（Ficus curtipes）、铁力木（Mesua ferrea）和糖胶树（Alstonia scholaris）是果蝠最喜爱的夜栖息地。在同样的情况下,尽管需要飞行更远的距离,两种果蝠都比较喜欢寻找具有许多枝条和小枝并且有复杂树冠的树木作为夜栖息地。两种果蝠取食光叶桑果实时,一部分种子通过消化道消化后被排泄出来,另外的一部分伴随着咀嚼后的果渣被吐出来,通过这两种方式,散布了大量的种子,再加上在飞行中也有排泄的习性,它们传播的种子在空间上更广泛。     

中华秋沙鸭越冬行为时间分配及日活动节律

2007年12月-2008年1月和2008年11-12月,在江西省境内4条主要河流及其支流对中华秋沙鸭(Mergus squamatus)越冬期的各种行为活动节律及时间分配进行了实地调查研究。结果表明:中华秋沙鸭越冬期的主要行为有取食、游泳、理羽、静息、睡眠、游戏、飞行和观察。其中取食、游泳、理羽、静息呈明显的节律性变化,且取食与静息呈相反的节律变化;睡眠、飞行、游戏和观察没有明显的节律性变化。取食在7:00-8:00、10:00-11:00、12:00-13:00有明显的峰值,峰值平均间隔2.3h,其它时段具相近取食频次,且上午高于下午。睡眠和静息下午发生频次明显高于上午,并呈现节律性变化,对应3个取食高峰表现为低频次。行为时间分配如下:取食(46%),游泳(23%),理羽(9%)、静息和睡眠(各占8%)、飞行(4%)、游戏(2%)和观察(0.5%)。越冬期中华秋沙鸭大量时间用于取食,意图是为了积累能量。相关分析表明:取食与睡眠的发生呈显著负相关(R=-0.73,df=8,P0.05);取食与飞行的发生呈显著正相关(R=0.70,df=8,P0.05);理羽与静息的发生呈极显著正相关(R=0.88,df=8,P0.01);其他各种行为之间无显著相关性。     

两种果蝠对光叶桑(Morus macroura)果实的取食及种子传播

从2005年3月到2006年5月,在中国科学院西双版纳热带植物园沟谷雨林保护区内研究了两种果蝠——棕果蝠(Rousettus leschenaulti)和犬蝠(Cynopterus sphinx)取食光叶桑(Morus macroura) 果实的行为、夜栖息地分布、散布种子方式及范围等。借助月光对果蝠的行为进行直接观察,发现它们的取食活动一般在天黑20~40 min开始,取食高峰发生在22: 00~22: 30 和23:00~23:30之间,这两个取食高峰期平均取食次数(平均值±标准误)为(13.5±2.5)和(15.0±2.3)次,最低的取食频率发生在19: 00~19: 30和20: 30~21: 00之间,分别取食(0.2±0.2)和(0.7±0.5)次。果蝠很少在母树上取食成熟的果实,相反它们用嘴叼下果实并携带到夜栖息地去进食,通常这些夜栖息地是具有密闭树冠、密集枝条的树种。夜栖息地在母树周围的分布根据环境中适合它们栖息的树种和分布而决定,不同母树周围其夜栖息地分布具有非常大的变异与空间异质性。钝叶榕(Ficus curtipes)、铁力木(Mesua ferrea) 和糖胶树(Alstonia scholaris) 是果蝠最喜爱的夜栖息地。在同样的情况下,尽管需要飞行更远的距离,两种果蝠都比较喜欢寻找具有许多枝条和小枝并且有复杂树冠的树木作为夜栖息地。两种果蝠取食光叶桑果实时,一部分种子通过消化道消化后被排泄出来,另外的一部分伴随着咀嚼后的果渣被吐出来,通过这两种方式,散布了大量的种子,再加上在飞行中也有排泄的习性,它们传播的种子在空间上更广泛。     

年龄、集群、生境及天气对鄱阳湖白鹤越冬期日间行为模式的影响

于2012年1—3月和2012年12—2013年3月,采用瞬时扫描法研究了鄱阳湖国家级自然保护区越冬白鹤(Grusleucogeranus)的昼间时间分配模式和日活动节律,分析了年龄、集群大小、生境类型和天气对白鹤越冬行为的影响。结果表明,白鹤越冬期的主要行为有觅食、警戒、理羽、游走、休息和争斗。其中,觅食是鄱阳湖越冬白鹤主要行为,占其昼间活动时间的82.94%;警戒占11.94%,理羽占3.52%,游走占1.88%,休息占0.15%,争斗占0.02%。白鹤在越冬期间的觅食、游走、休息和争斗行为存在明显的昼间节律性,其中游走、觅食和争斗行为在每天的上午和下午各存在1个高峰,休息行为在中午出现一个高峰;警戒和理羽行为则没有显著的昼间节律变化。年龄、集群大小、天气和生境对白鹤的越冬行为具有显著的影响:幼鹤取食的时间显著多于成鹤,而警戒时间则显著的小于成鹤;与家庭群中的个体相比,集体群中的个体取食和争斗时间显著增加,警戒时间显著减少;在天气晴朗时,白鹤的警戒时间显著大于阴天的警戒时间,取食时间则显著少于阴天时白鹤的取食时间;白鹤在大风天气显著增加理羽行为;在有雾的天气会显著增加取食时间,减少警戒时间。在草洲和浅水两种生境中,白鹤的游走和理羽行为存在显著差异,而觅食和警戒行为没有显著的差异,这可能源于草洲和浅水生境相互毗邻,并且具有相同程度的人为干扰。GLM分析结果表明,年龄和集群大小、年龄和生境、集群大小和天气、集群大小和生境、天气和生境对白鹤昼间时间分配模式的影响存在显著交互效应。     

云南大山包黑颈鹤日间越冬时间分配和活动节律

2006年10月—2007年4月采用瞬时扫描取样法对云南省昭通市大山包黑颈鹤国家级自然保护区内越冬的黑颈鹤(Grus nigricollis)种群进行了越冬时间分配和日间活动节律的研究。取食是黑颈鹤越冬期间最主要的行为,占(53.05±4.93)%,其次为警戒(18.75±2.65)%、搜寻(10.38±1.34)%和休整(10.32±4.93)%,其余行为依次为:行走(4.90±1.59)%、飞行(1.70±0.38)%、其他(0.55±0.41)%、争斗(0.36±0.25)%。黑颈鹤的出飞时间与日出时间、飞回时间与日落时间分别具有显著的正相关和负相关关系。越冬期间黑颈鹤日间各时间段(1h)(09:00—18:00)和各月份间(2006.11—2007.03)行为差异极显著(P<0.05),并呈现出上午和下午取食双峰、中午休息高峰的规律性变化。气温高时黑颈鹤增加休整时间减少取食时间;气温低时则减少休整时间增加取食时间。偏相关分析说明:环境温度独立地对越冬时间分配产生影响,湿度通过温度对黑颈鹤越冬时间分配产生相反的影响。     

喀斯特灌丛草地武雪山羊的觅食行为与喜食性

在湘西典型喀斯特灌从草地环境条件下,对武雪山羊的觅食行为与喜食性进行了分析。结果表明,武雪山羊各行为所占的时间长短依次为采食〉游走〉卧息反趋〉站立〉饮水。除站立时间外,其它行为时间分配在上、中、下午有明显的差异（P〈0．05）。其中采食时间曲线呈“V”字形变动,卧息反刍时间曲线呈抛物线型变动。游走时间上午明显低于中午与下午,而饮水时间下午明显高于上午与中午。武雪山羊偏向于取食小构树（Broussonetia kazinoki）、马棘（Indigfera psendotictoria）、忍冬（Lonicera japonica）等,且山羊对木本与藤本植物的喜食程度高于草本植物。山羊所采食的植物大部分为喜食种类,但由于各种植物的分布状况与可获得性不同,主要食物并非全部由喜食种类组成。     

圈养阿拉伯狒狒日活动时间格局及季节差异

动物个体行为的生态效应主要反映在它们的活动节律和时间分配上.2012年11月至2013年10月,在杭州野生动物园,用瞬时扫描取样法对1群圈养阿拉伯狒狒的日活动节律和活动时间分配进行了调查研究.结果表明: 1)在活动时间分配中,主要活动(频次百分率≥5%)包括休息(42.5%)、游动(16.2%)、玩耍(10.0%)、摄食(9.8%)、理毛(9.4%)和观望(7.3%);频次百分率低于5%的称为次要活动,共4.8%.2)阿拉伯狒狒的活动时间分配具有明显的季节性变化,冬季摄食和观望时间增加,玩耍和理毛时间减少,但休息和游动行为没有显著季节差异.3)阿拉伯狒狒通常在上午和下午分别出现摄食高峰,并随着气温逐渐转冷,摄食活动逐渐增加,出现3个摄食高峰;这可能是动物在寒冷季节为抵御寒冷而采取的补充能量的一种策略.4)在温暖季节,阿拉伯狒狒只有中午一个休息高峰和一个理毛高峰,更多时间用于游动和玩耍,表现为多峰特征;在寒冷的冬季,休息行为也体现了多峰特征,但其游动、玩耍和张望时间节律并不与温暖季节有明显差异.因此,杭州地区圈养阿拉伯狒狒的冬季日活动节律与许多灵长类(如黑冠长臂猿、维氏冕狐猴和绒毛猴等)不一样,采取摄食增加能量,而非休息减少能量消耗的策略.总之,阿拉伯狒狒的行为体现出明显的节律性,且其活动节律具有季节性差异,这些可能是阿拉伯狒狒适应于圈养环境特有的食物资源和温度变化的影响而形成的.     

环境和社会因素对喀斯特石山猕猴日活动节律和活动时间分配的影响

2007年9月至2008年8月,以广西弄岗国家级自然保护区内的一大群野生猕猴为研究对象进行连续的跟踪观察,采用瞬时扫描取样法收集其食物组成、活动节律和活动时间分配的数据,旨在探讨影响石山猕猴活动节律及活动时间分配的环境和社会因素。结果表明：研究猴群的日活动节律表现为上午和下午的觅食高峰以及中午的休息高峰,这与白天温度和日照强度的变化有关。日活动时间分配中,休息42.1%,移动34.5%,觅食15.1%,玩耍2.0%,理毛5.2%,其他行为1.3%。猴群依据食物的变化调整活动时间分配,其中用于移动的时间与食物中果实的比例成显著的正相关性。不同性别年龄组个体的活动时间分配表现出显著差异,主要表现为成年雄性花费更多的时间休息,而成年雌性花费更多的时间觅食和社会性理毛,未成年个体则花费更多的时间玩耍。与同域分布的小群猕猴相比,本研究群花费更多的时间休息,较少的时间觅食。这些差异可能与盗食农作物有关。     

近邻剑水蚤对浮游动物的摄食

近邻剑水蚤能捕获和摄食实验所提供的所有浮游动物,尤喜食小型浮游动物。猎物受攻击的部位发生在头部,背部和腹部。猪物密度、水温、光照强度和昼夜变化对近邻剑水蚤的摄食有重要影响。     

不同光照强度下乌鳢幼鱼的摄食强度及动力学

在103－10－3lx光照强度范围内,乌鳢幼鱼对浮游动物的摄食强度随光照强度的减弱而增强,在10-3lx时达最大值;摄食丰在10-3lx时最高,并随时间的延长而显著降低。     

The scaling of tongue projection in the veiled chameleon,Chamaeleo calyptratus

Within a year of hatching, chameleons can grow by up to two orders of magnitude in body mass. Rapid growth of the feeding mechanism means that bones, muscles, and movements change as chameleons grow while needing to maintain function. A previous morphological study showed that the musculoskeletal components of the feeding apparatus grow with negative allometry relative to snout–vent length (SVL) in chameleons. Here, we investigate the scaling of prey capture kinematics and muscle physiological cross-sectional area in the veiled chameleon, Chamaeleo calyptratus. The chameleons used in this study varied in size from approximately 3 to 18 cm SVL (1–200 g). Feeding sequences of 12 chameleons of different sizes were filmed and the timing of movements and the displacements and velocities of the jaws, tongue, and the hyolingual apparatus were quantified. Our results show that most muscle cross-sectional areas as well as tongue and hyoid mass scaled with isometry relative to mandible length, yet with negative allometry relative to SVL. Durations of movement also scaled with negative allometry relative to SVL and mandible length. Distances and angles generally scaled as predicted under geometric similarity (slopes of 1 and 0, respectively), while velocities generally scaled with slopes greater than 0 relative to SVL and mandible length. These data indicate that the velocity of jaw and tongue movements is generally greater in adults compared to juveniles. The discrepancy between the scaling of cross-sectional areas versus movements suggests changes in the energy storage and release mechanisms implicated in tongue projection.     

Tooth reorientation affects tooth function during prey processing and tooth ontogeny in the lesser electric ray, Narcine brasiliensis

The dental anatomy of elasmobranch fishes (sharks, rays and relatives) creates a functional system that is more dynamic than that of mammalian dentition. Continuous dental replacement (where new teeth are moved rostrally to replace older ones) and indirect fibrous attachment of the dentition to the jaw allow teeth to reorient relative to the jaw over both long- and short-term scales, respectively. In this study, we examine the processing behavior and dental anatomy of the lesser electric ray Narcine brasiliensis (Olfers, 1831) to illustrate that the freedom of movement of elasmobranch dentition allows a functional flexibility that can be important for complex prey processing behaviors. From static manipulations of dissected jaws and observations of feeding events in live animals, we show that the teeth rotate during jaw protrusion, resulting in a secondary grasping mechanism that likely serves to hold prey while the buccal cavity is flushed free of sediment. The function of teeth is not always readily apparent from morphology; in addition to short-term reorientation, the long-term dental reorientation during replacement allows a given tooth to serve multiple functions during tooth ontogeny. Unlike teeth inside the mouth, the cusps of external teeth (on the portion of the tooth pad that extends past the occlusal plane) lay flat, such that the labial faces act as a functional battering surface, protecting the jaws during prey excavation.     

Feeding behavior modulation in the leopard lizard (Gambelia wislizenii): effects of noxious versus innocuous prey

Feeding, a fundamentally rhythmic behavior in many animals, is expected to exhibit modulation with respect to prey type. Using high-speed videography (200 frames s⁻¹) and kinematic analysis, we investigated prey-processing behavior in the long-nosed leopard lizard (Gambelia wislizenii). The effects of two prey types were examined, innocuous immature crickets (Acheta domesticus) and noxious stinging hymenopterans (honeybees [Apis mellifer] and yellow jackets [Vespula sp.]). Stinging hymenopterans are processed more extensively, with higher gape-cycling frequencies, and for a greater duration than are crickets. Generalized tetrapod feeding models were used as a framework to test the hypothesis that gape profile characteristics are modulated in response to prey noxiousness. Cricket processing generally fits the models, but hymenopteran processing departs from typical model parameters. In particular, the SO phase is absent to barely detectable during hymenopteran processing. This likely represents an effect of extrinsic neural input on a centrally directed rhythmic motor pattern, possibly to avoid being stung. Differences in the capture behavior of crickets versus hymenopterans indicate that G. wislizenii assesses prey noxiousness before physical contact with prey and modifies its capture behavior accordingly. These results add to the growing body of evidence that sensory information can play a critical role in shaping stereotyped rhythmic behaviors in non-mammalian tetrapods.     

南极磷虾种群生物学研究进展III-摄食

鉴于南极磷虾在南极食物网中所处的关键地位,其摄食活动对南大洋海洋生态系统有着极为重要的影响。南极磷虾食物组成因季节、空间等不同而存在差异,且摄食对象的分类和鉴别也存在着较大困难,选食机制目前尚有不同意见。本文从摄食对象、摄食方式、选食机制及摄食率等方面对近百年来南极磷虾摄食生态学研究进行了总结和归纳,以期为国内外学者开展相关研究提供基础信息,并为进一步开展其摄食生态学研究提供科学思路。     

饥饿对唐鱼仔鱼摄食和生长的影响

用初次摄食率测定法测定饥饿胁迫下唐鱼(Tanichthys albonubes)仔鱼耐饥饿能力,观察了饥饿对仔鱼摄食、生长和形态发育的影响。结果表明,水温24.0~28.5℃条件下仔鱼在孵化后第2.5~3d开口摄食,初次摄食率为33.3%,最高初次摄食率为100%并持续4d;混合营养期约2d;第5d卵黄耗尽,并达到最高摄食强度;第8.5d进入不可逆点(PNR),PNR有效积温为222.7d.℃,第10d死亡率超过50%,12d全部死亡。饥饿对仔鱼发育起延迟作用,混合营养期延迟投喂,仔鱼生长发育水平明显低于正常投喂仔鱼,饥饿仔鱼发育停滞且在PNR前后负增长并出现胸角。本文讨论了仔鱼耐饥饿能力与生境、生活史策略的关系。     

Feeding activity and opercular pressure transients in Atlantic salmon (<Emphasis Type="Italic">Salmo salar</Emphasis> L.): application to feeding management in fish farming

Ecological and economical sustainability of marine aquaculture operations depend on proper feeding management. Feed wastage from overfeeding is a source of pollution, represents futile use of precious marine resources, and undermines the economic viability of operations. Additionally, underfeeding reduces growth and fish welfare. Finding an optimal feeding regime in terms of temporal and spatial distribution of the feed ration require intimate knowledge of the individual feeding behaviour of fish sustaining intensive culturing conditions. Fish telemetry has proved to be a valuable tool for studying spatial behaviour in sea cages, however there are currently no practical methods available with respect to detection of actual feed intake in fish on the individual level. The present study investigates pressure transients arising in the opercular cavity of farmed Atlantic salmon (Salmo salar L.) in connection with feeding, and whether such measurements can serve as an indication of feed ingestion. A technical solution to the sensing problem based on a differential pressure transducer is presented along with typical pressure signal traces obtained during feeding in a hard wire tank experiment. Measurements showed considerable variation of sub-ambient pressure transients (1.5 kPa ± 0.95) and their duration (519 ms ± 117), suggesting that the fish modulates its strike intensity depending on the particular feeding situation. Despite variations in scale, opercular pressure waveforms have distinct structural features that repeat between feeding instants. From a signal processing point of view waveforms provide sufficient information with respect to isolation and detection of feeding incidents, which is important with respect to a potential implementation of the sensing principle in a telemetry tag design. Issues regarding development and application of a telemetry system based on this sensing principle are discussed.     

Feeding rate as valuable information in primate feeding ecology

In this review I outline studies on wild non-human primates using information on feeding rate, which is defined as the food intake per minute on a dry-weight basis; further, I summarize the significance of feeding rate in primate feeding ecology. The optimal foraging theory has addressed three aspects of animal feeding: (1) optimal food patch choice, (2) optimal time allocation to different patches, and (3) optimal food choice. In order to gain a better understanding of these three aspects, the feeding rate itself or its relevance indices (e.g., rates of calorie and protein intake) could be appropriate measures to assess the quality of food and food patches. Moreover, the feeding rate plays an essential role in estimation of total food intake, because it varies greatly for different food items and the feeding time is not a precise measure. The feeding rate could also vary across individuals who simultaneously feed on the same food items in the same food patch. Body size-dependent and rank-dependent differences in the feeding rate sometimes cause individuals to take strategic behavioral options. In the closing remarks, I discuss the usefulness of even limited data on feeding rate obtained under adverse observational conditions in understanding primate feeding ecology.     

Economy of food utilization in a gregarious sawfly,Arge nigrinodosa Motschulsky (Hymenoptera: Argidae): Relative abundance of food in the natural habitat and behavioral pattern of larval feeding

Summary Relative abundance of natural food resource, leaves of wild rose, ofArge migrinodosa was evaluated by comparing the food quantity which the larvae composing a colony utilized throughout the larval stage with that which is available in the habitat. In this connection, behavioral pattern of larval feeding was also observed under natural conditions, and its ecological significance was discussed. It was quantitatively clarified that the larvae faced the severe shortage of food and had to disperse to other shoots with the expense of probably high risk. Under pressures of such insufficient supply of food, the larvae follow the most efficient pattern of feeding behavior that they move to the tip of shoot at first and feed regularly downward thereafter. Though individual larvae behaved completely independently of each other, the aggregation appeared to be formed and maintained because all the larvae from the same egg mass follow this fixed feeding pattern.