喜马拉雅灰叶猴栖息地利用和食性生物学

2006年4月至2007年4月在巴基斯坦克什米尔地区马希亚拉国家公园(Machiara National Park)对喜马拉雅灰叶猴(Semnopithecus entellus ajex)的栖息地利用和食性生物学进行研究。结果表明,冬天,叶猴首选的栖息地多为温暖湿润的针叶林和落叶林混交地区;夏天,它们则迁移至高海拔的亚高山灌木丛林里。喜马拉雅灰叶猴主要以植物的叶子为食,研究期间在该地区共发现49种被采食过的植物(夏季27种,冬季22种)。通过观察它们的所有食物,发现老叶(36.12%)比嫩叶(27.27%)更受欢迎,随后依次为果实17.00%、树根9.45%、树皮6.69%、花2.19%和根茎1.28%。     

中国石蕊属地衣的地理学分析

将中国92种石蕊属地衣划分为8个地理成分：广布成分19种,占总种数的21％,环北极成分32种（35％）,泛热带成分8种（9％）,欧亚成分5种（5％）,东亚-北美成分7种（8％）,东亚成分13种（14％）,中国喜马拉雅成分1种（1％）,中国特有成分7种（7％）。对中国石蕊属地衣所属的主要地理成分的形成进行了初步讨论,提出东亚特有种云南石蕊（Cladoniayunnana）和北美特有种拟胀石蕊（C.transcendens）为一对地理替代种;比蒙氏石蕊（C．Beaumontii）,圆筒石蕊（C.cylindrica）,丛杯石蕊（C.mateocyatha）和大翅石蕊（C.macroptera）等4种为东亚-北美间断分布种。指出中国喜马拉雅成分戴氏石蕊（C.delavayi）及欧亚成分中的细枝石蕊（C.corymbescens）在中国分布的北界是秦岭山脉。     

西双版纳勐养旱季季风常绿阔叶林的林下鸟类群落组成和特点

2008年10月—2009年3月,用网捕法对西双版纳勐养季风常绿阔叶林林下鸟类群落进行了研究。共张网15 840网·h,捕到林下鸟类90种1 423只,隶属28科7目。优势种为银胸丝冠鸟(Serilophus lunatus)、褐脸雀鹛(Alcippe poioicephala)、白喉冠鹎(Alophoixus pallidus)、金眶鹟莺(Seicercus burkii)、白尾蓝地鸲(Cinclidium leucurum)、黑胸鸫(Turdus dissimilis)、棕头幽鹛(Pellorneum ruficeps)、棕胸雅鹛(Trichastoma tickelli)等8种。留鸟为林下鸟类主要成分,其捕获数量,占总数量的89.3%。平均网捕率9.0只/(100网·h),月份变化极显著(x²_{5, 282}=, P=0.000);2008年12月平均网捕率最高,为（12.5±1.3）只/(100网·h);2009年2月最低,为（5.2±0.6）只/(100网·h)。林下鸟类群落呈现多物种而低密度特征。画眉科鸟类优势地位不明显。国家二级保护鸟类银胸丝冠鸟是本地区捕获数量最多的鸟,其栖息地需重点保护。     

中国南部地区松树上的散斑壳菌I．

近年作者对我国南部地区松树上的散斑壳属(Lophodermium Chev．)真菌进行了调查和研究。本文报道8个种,其中椭圆散斑壳(L. ellipticum Y.R．Lin)是新种,喜马拉雅散斑壳(L. himalayense P．F．Cannon ＆ Minter)和库曼散斑壳(L. kumaunicum Minter ＆ M．P．Sharma) 为我国新记录种,南方散斑壳(L. australe Dearn.)等5种为国内已记载种。对新种作了拉丁文、汉文描述和图解,对新记录种进行了简要记述。另外,记载了已知种的寄主新记录和地理新分布。     

突尼斯非洲跳鼠(Jaculus jaculus)和埃及跳鼠(J.orientalis)群体的等位酶多态及遗传分化(英文)

运用16种酶蛋白编码的23个遗传座位对突尼斯非洲跳鼠(Jaculus jaculus)和埃及跳鼠(J. orientalis)自然群体的遗传变异和分化进行了电泳分析。结果表明,与其他啮齿动物等哺乳动物的相关数据比较,发现这两个种群体的遗传变异水平较低。非洲跳鼠群体的观测杂合度 (H_obs) 为0.08—0.19,多态座位百分比(P)为26.2%—45.2%,每个座位的平均等位基因数(A)为1.1—1.4;埃及跳鼠的H_obs为0.10—0.15,P为29.3%—44.1%,A为1.1—1.7。两个种群体各自的遗传分化程度较低(非洲跳鼠和埃及跳鼠的F_st分别为0.0017和0.0019)。而两个种群体间的F_st为0.607（P<0.05）,表明两个种之间高度的遗传分化。本研究支持这两个种分类地位的合法性,并强调了地理因素（环境类型和生物气候阶段）对两个种遗传结构的影响。     

东亚粗叶木属(茜草科)植物的分布及其生物地理意义

茜草科粗叶木属植物是亚洲热带原始林下优势地位明显的一类灌木植物.依据标本资料和分类学修订,研究了东亚产粗叶木属植物33个种的地理分布式样,并将其划分为热带亚洲、东亚和中国特有3个分布区类型,其中热带亚洲分布型可以进一步划分为印度(喜马拉雅)至马来西亚分布、印度(喜马拉雅)至中国南部和大陆东南亚分布及中国南部至大陆东南亚分布3个亚型.中国粗叶木属植物中热带亚洲分布型占总种数的72.7%,显示了中国热带地区植物区系的热带亚洲亲缘.一些粗叶木属植物种类的分布式样暗示了中国-日本、中国-喜马拉雅森林植物区系的分区及物种形成,喜马拉雅(横断山)-台湾山地植物区系的联系及台湾-琉球-日本物种迁移通道.海南、台湾植物区系缺少特有种反映了它们的植物区系大陆性很强. 粗叶木属植物种类的分布式样对中国热带植物种分布区类型的划分提供了参考.     

河南董寨白冠长尾雉繁殖期栖息地选择

2001年至2003年春季,采用样线调查和媒鸟招引,在河南董寨国家级自然保护区对我国特有珍稀雉类白冠长尾雉（Syrmaticus reevesii）的栖息地选择进行了调查,结合RS和GIS分析了在景观水平上对栖息地的选择性,并借助逐步逻辑斯谛回归分析了影响繁殖期白冠长尾雉栖息地的关键尺度和主要因素。结果表明,在白云保护站,占区雄性白冠长尾雉在不同栖息地类型中的出现频率不同,出现最多的是混交林,其次是杉木林,随后是松林、灌丛、阔叶林;在董寨自然保护区内,在115 m尺度和250 m尺度上,针叶林的面积比例均是影响其栖息地选择的关键因子,而到农田的距离是距离因素中最重要的因素。根据回归分析和AIC_C及ΔAIC_C值,115 m尺度上栖息地变量对白冠长尾雉繁殖期的栖息地选择影响最大。综合分析表明,影响白冠长尾雉繁殖期栖息地选择的主要因子为115 m尺度上针叶林的面积比例和到农田的距离。建议在制定白冠长尾雉栖息地保护策略时,应加强现有适宜栖息地的管理,改善栖息地布局,并从景观尺度上开展针叶林对白冠长尾雉种群影响方面的研究工作。     

云南无量山印支灰叶猴社会结构初步研究

乌叶猴属物种主要以一雄多雌的小群活动,其群体大小一般不超过20只。泰国东北部的印支灰叶猴生活在一雄多雌或多雄多雌群的小群中,而云南无量山的印支灰叶猴却生活在多雄多雌的大群中,有些群大小超过100只,但是对无量山印支灰叶猴的社会结构缺乏研究。2012年9月至2015年7月,在云南无量山国家级自然保护区大寨子片区开展一群习惯化印支灰叶猴的社会结构研究。采用10min间隔的焦点动物瞬时记录法,记录焦点成年雄性5 m范围内不同性别年龄个体的数量。观察期间共有594次准确识别焦点雄性5 m范围内其它个体年龄性别的有效数据 (至少有1只其他个体)。其中,焦点雄性周围出现其它成年雄性的几率为44.2%,数量为(0.62 ± 0.85)只;同时出现成年雄性和成年雌性的几率是32.5%。取食时焦点雄性周围出现其它雄性的比例 (60.0%) 和数量 (平均0.93只) 都大于休息和移动时,数量最多为5只成年雄性。结果表明该群灰叶猴的社会结构不是由多个OMU和AMU组成的重层社会,而是多雄多雌的社会结构。无量山印支灰叶猴群内成年雄性间相互容忍度较高,个体的空间分布在取食时尤其密集,说明无量山印支灰叶猴的食物丰富 (至少在某些季节),这也部分解释了为什么无量山印支灰叶猴能够生活在大群中。本文为进一步研究亚洲疣猴社会结构的多样性和进化提供了重要的基础资料。     

红豆杉细胞非甲羟戊酸途径关键酶基因dxr的克隆与分析

近几年的研究表明,非甲羟戊酸途径可能是紫杉醇合成的主要途径,通过对各种不同来源的非甲羟戊酸途径关键酶5_磷酸脱氧木酮糖还原异构酶（DXR）基因同源区域进行比较,设计出简并引物,利用RT_PCR技术从中国红豆杉（Taxus chinensis）悬浮细胞中扩增出535bp的基因片段。同源序列比对发现,推断的蛋白质序列与Arabidopsis thaliana (Q9XFS9)、Mentha x piperita (Q9XES0)、Synechococcus elongatus (Q8DK30)、Synechocystissp. PCC 6803 (Q55663)、Nostocsp. PCC 7120 (Q8YP49)、Synechococcus leopoliensis (Q9RKT1)的一致性分别达到95%、94%、80%、78%、78%和73%。结合蛋白质保守区、特征区以及进化树分析,证实该基因确为dxr基因,首次报道从裸子植物中克隆到非甲羟戊酸途径关键酶的基因片段。     

盐池湾自然保护区喜马拉雅雪鸡育雏栖息地选择

2005年4—7月,采用样方法和直接观察法,对甘肃省盐池湾自然保护区喜马拉雅雪鸡(Tetraogallus himalayensis)育雏期的栖息地选择进行了研究。共测量了16个正在觅食、未受到干扰的雪鸡育雏栖息地和14个阴阳坡的对比样方。研究表明,育雏期的喜马拉雅雪鸡主要选择在海拔3301—3600m之间、中坡及中坡以上的坡位、坡度11—30°之间的灌丛草地活动,这有利于雏鸟获得足够的食物供应和更好的保护后代。主成分分析表明,影响雪鸡育雏期栖息地选择的主要因子分为捕食因子和食物因子两类,其主要因子依次为灌丛长度、物种丰富度、地面异质性以及附近(500m内)的悬崖数量。喜马拉雅雪鸡对育雏栖息地的选择其实是最好的食物资源和最有利于逃避敌害之间的权衡,即捕食因子与食物因子之间权衡的结果,这可能是喜马拉雅雪鸡在长期演化过程中形成的一种避免被天敌捕食的行为适应,是高寒地区鸟类的一种生存策略。     

青木川自然保护区川金丝猴食性的季节性变化

2005 ～2008 年于陕西省青木川自然保护区使用瞬时扫描法观察了川金丝猴的食性。结果表明,川金丝猴冬季和夏季共取食42 种植物,可鉴定植物归属23 科34 属。川金丝猴食物类型包括果实、花、树叶、树皮、树芽。夏季取食21 种植物的果实或树叶;冬季取食25 种植物。树叶是其冬季主要食物,取食频次占总取食频次的73.0% ;夏季取食果实的频次占总取食频次的72.2% ,灯台树果实是其主要食物。啃食树皮行为主要发生在落叶阔叶林、针叶林与落叶阔叶混交林;在常绿和落叶阔叶混交林中,树皮啃食强度则相对较小。与其它地区金丝猴的食性比较,该地区川金丝猴食物谱较宽。蔷薇科和壳斗科植物在川金丝猴食物组成中最多,杨柳科、桦木科、山茱萸科、槭树科和忍冬科植物也取食较多。     

秦岭南坡川金丝猴的食物组成及季节性变化

2013年3月至2014年2月,在秦岭南坡观音山自然保护区大坪峪颜家沟内选取一群半野生川金丝猴的成年个体作为研究对象,采用瞬时扫描取样法收集其觅食的食物类型数据,目的是为该猴群建立食谱,并通过对比不同季节内觅取的食物组成差异探讨秦岭南坡川金丝猴如何应对喜食食物的季节性缺乏。结果表明：秦岭南坡川金丝猴共采食53种植物（包括34种乔木、13种灌木、6种藤本植物）和4种大型真菌,分别占取食植物组成的64.3%、25.3%、8.0%和2.2%,春、夏、秋、冬季节取食种类和多样性指数分别为20种(3.93)、19种(3.73)、21种(3.87)和25种(4.12)。在秦岭南坡川金丝猴的食物组成中,地衣占总觅食记录的22%;树叶占20%,其中嫩叶9%和成熟叶11%;种子、树皮、芽苞、果实和叶柄分别占16%、15%、11%、 9%和7%。该猴群觅取的植物部位具有明显的季节性差异。春季,对树皮和芽苞的觅食量较高,分别为28%和25%;夏季,增加了对成熟叶的采食量(29%),而减少了芽苞的觅取量(5%);秋季,以取食种子和果实为主,分别占总觅食的48% 和16%;冬季,地衣的采食量达到最大值（41%）。觅食的食物组成与食物的可获得性呈正相关性(R = 0.984, P < 0.01),这与大多数叶猴的适应策略类似,在喜食食物短缺的冬季,它们选择更多的地衣和树皮为食,同时它们采食的种类和食物多样性也有相应增加。     

Seasonal Dimorphism in the Mediterranean Cistus incanus L. subsp. incanus

Mediterranean perennial species are described as being sclerophyllous,or summer deciduous, or seasonally dimorphic. Field observationin the coastal maquis of Castelvolturno Nature Reserve, southernItaly, showed thatCistus incanus L. subsp. incanus is a seasonallydimorphic species as it develops brachyblasts with small leavesin summer, and dolichoblasts with large leaves in winter. Fieldbiometric data confirmed that winter shoots were 14-times longerthan those developed in summer and had many more leaves. Thearea of single winter leaves was five-times that of summer leaves.Anatomical leaf structure also changed with the season: winterleaves were flat while summer leaves had a crimped lamina whichwas partially rolled to form crypts in the lower surface. Leaveswere covered by considerably more trichomes in summer than inwinter. Stomata were uniformly distributed along the lower epidermisof winter leaves but were only present in the crypts of summerleaves. In summer leaves, a palisade layer was often found onboth sides of the lamina, the mesophyll cells were generallysmaller and the intercellular spaces were reduced. Winter leaveshad a dorsiventral structure and larger intercellular spaces.Seasonal dimorphism is generally reported to be an adaptationto summer drought. However, the morphology and anatomy of C.incanus L. subsp.incanus showed that the subspecies has notonly developed a strategy to survive summer drought, but hasevolved two different habits, one more xerophytic than the other,to optimize adaptation to the seasonal climatic changes occurringin Mediterranean environments. Copyright 2001 Annals of BotanyCompany Cistus, Cistus incanus L. subsp. incanus, climatic changes, leaf anatomy, leaf dimorphism, Mediterranean shrubs, phenology, seasonal dimorphism     

Effects of season and breed on browse species intake rates and diet selection by goats in the False Thornveld of the Eastern Cape,South Africa

Although goats are common domestic browsers in African savannas, factors that affect their diet selection and food intake rate are poorly understood. This study used a cafeteria-style experimental procedure to investigate the effects of season and breed on browse species intake rates and browse species preference by Boer and Nguni goats in the False Thornveld of the Eastern Cape. Six browse species that commonly occur in the study area were used: Grewia occidentalis L. (Tiliaceae), Scutia myrtina (Burm. f.) Kurz (Rhamnaceae), Diospyros lycioides Desf. subsp. lycioides (Ebenaceae), Rhus longispina Eckl. and Zeyh. (Anacardiaceae), Ehretia rigida (Thunb.) Druce (Boraginaceae) and Acacia karroo Hayne (Fabaceae=Leguminosae). Cut branches were offered to goats during winter and summer and instantaneous intake rates and preferences were measured. There were no significant differences between Boer goats and Nguni goats in dry matter intake rates per unit metabolic body weight and in preferences of the six browse species, suggesting a potential for competition should the resources become limiting. However, the intake rates of Nguni goats increased by 50% from winter to summer, while intake rates of Boer goats increased by 87%. The mean intake rate was 69% higher in summer than in winter. Intake rates varied among all browse species, except A. karroo and R. longispina. Intake rates of D. lycioides, G. occidentalis and S. myrtina were higher than those of the other three species. Intake rates tended to increase more among deciduous species than evergreen species in summer, but the effect was not consistent. Likewise, intake rate within seasons was not consistently related to leaf phenology; intake rate of deciduous species was neither lower nor higher than that of evergreen species at any time. However, the increased intake rate in summer was consistent among those deciduous and evergreen species that produce all their new leaves on new long shoots, as opposed to species that produce their new leaves on old short shoots. The consequence of the two shoot morphologies for the browsing animal is that browseable material in the former group consists of shoots and leaves, but in the latter group consists mostly of leaves only. G. occidentalis and S. myrtina were the two most preferred species. Deciduous species were not consistently more preferred than evergreen. In accordance with optimal foraging theory, nutrient intake rates consistently explained preference in winter and summer. Species that offered the highest rates of nutrient intake were most preferred.     

Feeding ecology of rooks (Corvus frugilegus) on the Heretaunga Plains,Hawke's Bay,New Zealand

Abstract

The food resources of rooks were measured and related to changes in the birds' feeding behaviour during 1968-1970. In all, 381 birds were individually marked with wing tags and colour-coded leg bands and released; their activities were recorded for set periods. Rooks preferred to eat invertebrates and walnuts, but also took seed of cereals, pulses, and stock feeds. They spent at least 40% of their feeding time (75-80% in spring) eating invertebrates, 30-60% finding or hiding walnuts and sometimes acorns in autumn and winter, and 45% eating seed during hot, dry weather in summer. Up to 6% of feeding time was spent eating newly sown or ripening seed. Throughout winter rooks frequently searched for hidden nuts, which they ate or moved to new positions. The proportion of time they spent feeding and the kind of food taken varied seasonally and, in summer and winter, hourly; there were only slight differences between morning, mid-day, and afternoon periods. Rooks spent 65% of the time feeding in autumn, but only 25-30% in spring. Conversely, they spent longer at nest sites from late autumn, peaking at 60% in spring, then less time at nests as they spent longer searching for food. The size of flocks altered with the food being eaten and therefore with season and time of day. Small flocks were widespread where favoured food was plentiful in autumn, winter, and spring, but flocks were larger where food was unevenly abundant in summer and sometimes in winter. During early autumn each bird usually ate and stored walnuts in a selected area of 1-2 km3, returning there later in the season to recover stored nuts. The areas formed only part of the total range used by the study population, and were usually shared with other birds. Tests in aviaries showed that rooks preferred earthworms and walnuts to acorns, maize, and wheat (in that order), and field tests confirmed that rooks preferred walnuts to maize. The numbers of each food item required to sustain a rook for a daylight hour were estimated. Summer is the most difficult season for rooks to find food.     

Food diversity and niche-overlap of sympatric tits (Great Tit,Parus major,Blue Tit,Cyanistes caeruleus and Coal Tit Periparus ater) in the Hyrcanian Plain forests

Abstract

This study was carried out between early summer 1998 and late summer 1999 in the Hyrcanian Plain forests, the southern Caspian Sea woodlands. In total, the gizzard contents of 241 specimens of the Great Tit (Parus major Linnaeus, 1758), Blue Tit (Cyanistes caeruleus Linnaeus, 1758), and Coal Tit (Periparus ater (Linnaeus, 1758)) were collected so that the percentages of grit, plants and animal materials could be estimated and the plant and invertebrate species consumed identified. The data were tested by a series of Mann-Whitney U, ANOVA and Kruskal-Wallis tests. To survey niche overlap of food materials between species and season, the symmetrical overlap index developed by Pianka (1973) was used. The most important invertebrates (maximum of percentage per season) in the diet of P. major were Coleoptera (36.5%) and Lepidoptera (33.6%), for C. caeruleus Coleoptera (34.5%) and Araneae (31.2%), and for Pe. ater Coleoptera (38.2%) and Araneae (35.6%). The most important plants consumed by P. major were Sorghum halepense (68.7%) and Ficus carica (65.6%), by C. caeruleus were F. carica (67.5%) and Alnus glutinosa (39.4%), and by Pe. ater were Lonicera spp. (82.9%). There was a greater degree of overlap and competition for animal food, but plant feeding overlap among the three tit species was low. Two species, P. major and C. caeruleus, showed high feeding overlap for animal items (0.92), whereas Pe. ater and C. caeruleus had no significant feeding overlap. The Coal Tit had a greater tendency to forage for vegetable matter and P. major had a greater tendency to forage for animal matter. Analysis of gizzard contents of P. major and Pe. ater showed that, despite the high degree of feeding overlap, the extent of plant materials consumed indicated no significant competition between the two species. Because Pe. ater is present mostly in autumn and winter, this study cannot establish any degree of competition and food-niche overlap during the breeding season between this and other tit species.     

Current state of forage resources and feeding of reindeer (<Emphasis Type="Italic">Rangifer tarandus</Emphasis>) and musk oxen (<Emphasis Type="Italic">Ovibos moschatus</Emphasis>) in the arctic tundras of Wrangel Island

The species composition and aboveground biomass of plant and lichens and the composition of reindeer and musk ox diet in the arctic tundra of Wrangel Island were studied in 2004 to 2007. The above-ground phytomass in different areas of the island varied from 1105 to 2100 kg/ha. The composition of plants consumed by reindeer and musk oxen and their proportions in the diet were determined by standard micro-histological analysis of plant remains in their feces. The results showed that, either in winter or in summer, both species obviously preferred feeding on willows (Salicaceae), which comprised almost half of their diet. Moreover, their feeding was highly selective, especially with respect to sedges and rushes (Cyperaceae + Juncaceae) and legumes (Fabaceae). Although the contributions of these plant groups to the total aboveground phytomass were very small (less than 4 and 8%), their proportions in the diet reached 27 and 24%, respectively. Mosses were not a preferred forage: their proportion in the aboveground phytomass reached 40%, but that in the diets of both species was below 10% in summer and increased to 20% only in the winter diet of reindeer. At a high abundance of lichens (up to 20% of the aboveground phytomass), neither of the animals consumed them during the study period.     

Leaf Structural Peculiarities in Sarcopoterium spinosum, a Seasonally Dimorphic Subshrub

Extensive investigations on the anatomy of the two leaf typesin a seasonally dimorphic subshrub revealed interesting variationsbetween summer and winter leaves. Summer leaves of Sarcopoteriumspinosum possess a thick epidermis composed of tannin-containingcells and large amounts of mucilage secreted through the innerpericlinal walls towards the mesophyll. A thick cuticle is alsopresent on the surface of the leaf. In winter leaves the epidermalcells produce no mucilage while phenolics are accumulated ingranular form only. Besides these, some other variations betweensummer and winter leaves are also discussed in respect of theability of the plant to withstand the unfavourable Mediterraneanconditions. Seasonal dimorphism, leaf anatomy, Sarcopoterium spinosum     

Life cycle strategies and seasonal variations in distribution and population structure of four dominant calanoid copepod species in the eastern Weddell Sea, Antarctica

The dominant Antarctic copepod species Calanoides acutus, Calanuspropinquus, Rhincalanus gigas and Metridia gerlachei were investigatedwith respect to their abundance, vertical distribution, developmentalstage composition, dry weight and lipid content. The specimenswere sampled during three expeditions to the eastern WeddellSea in summer (January/February 1985), late winter/early spring(October/November 1986) and autumn (April/May 1992) between0 and 1000 m depth to follow the seasonal development of thepopulations. Three species were most abundant in April, onlyC.propinquus reached highest concentrations in February. A seasonalmigration pattern was evident in all four species, but was mostpronounced in C.acutus. In October/November, they inhabiteddeeper water layers, their ascent started by mid-November andin mid-February the species concentrated in the upper 50 m,except for M.gerlachei (50–100 m). Their descent was observedin April/May. The stage composition changed dramatically withseason, the older developmental stages (CIII–CVI) dominatedthe populations in late winter/early spring, whereas youngerstages (CI and CII) prevailed during summer (C.acutus, C.propinquus)or autumn (R.gigas, M.gerlachei). Only C.acutus ceased feedingin autumn and diapaused at depth. Strong differences betweenseasons were also detected in dry weight and lipid levels, withminima in late winter/early spring and maxima in summer (C.acutus,R.gigas) or autumn (C.propinquus, M.gerlachei). Lipid reservesseem to be most important for the older stages of C.acutus andC.propinquus. Based on these seasonal data, different life cyclestrategies are suggested for the four species.