Phenology and life cycle of the annual, <Emphasis Type="Italic">Chamaesyce maculata</Emphasis> (L.) Small (Euphorbiaceae), with multiple overlapping generations in Japan

The phenology of germination, vegetative growth and sexual reproduction in the annual Chamaesyce maculata (L.) Small (Euphorbiaceae) were investigated in a natural population in western Japan. Seedlings emerged from mid-June to early October, with three peaks: mid-June, late July and late August. Plants that emerged in June commenced sexual reproduction from late July, and thereafter both vegetative growth and sexual reproduction occurred together until early November, the plants showing no switching from vegetative growth to sexual reproduction. Seedlings that emerged in June and July suffered high mortality, but most seedlings that emerged from August onward survived until the reproductive stage. The minimum size for reproduction was largest for plants that emerged early in the season, and it decreased with a delay in seedling emergence. The late emergence of seedlings that resulted in low reproductive output may be to some extent compensated for by the increased probability of survival in the seedling stage. A transplant experiment clarified that C. maculata can repeat a maximum of three overlapping generations within a year. Multiple generations per year were attained by non-dormant seeds produced in the first and second generations and clearly resulted in an increased reproductive output per year. The life cycle with multiple overlapping generations may have been acquired in habitats where unpredictable disturbance results in temporally unsuitable conditions for germination, vegetative growth and sexual reproduction of annual plants, but where suitable conditions frequently continue over a period longer than the single generation time of annual plants.     

Phenological and demographic behaviour of an exotic invasive weed in agroecosystems

An experimental work was conducted in Lleida (Spain) aiming to characterise the phenology and to quantify the demographic processes regulating the populations of Abutilon theophrasti Medicus in maize fields. Seedling emergence started a few days after crop sowing in early May and continued during two more months. The vegetative phase was very long due to the late seeding emergence; these later emerged plants showed a slower development, and many of them did not reach the fertility stage. A flowering peak was observed 12 weeks after emergence in late July, and fruit dehiscence and seed setting started in mid August, several weeks before crop harvest. Four different cohorts were identified, and two main peaks of emergence were determined 21 and 49 days after crop sowing nearest related with field irrigation. A functional logarithmic relationship between cumulative growing degree-days (GDD) and cumulative emergence was also described. The resulting demographic diagram reflects greater values relating to seedling survival for May cohorts (90.2 vs 7.9%), to fertility (100 vs 75%) and to fecundity (3774 vs 92 seeds pl⁻¹) than those determined for the June cohorts. The late emerged plants are subjected to a high density and are strongly affected by light competition, and their reproductive phase initiation delay is of about 10–20 days. In an assay conducted in Petri dishes, the seeds provided from plants emerged earlier were found more vigorous and germinated more than those from late emerged plants, which seem to be affected by incomplete fruit and seed ripening. Following the crop cycle without any weed control, the population rate increase was about 21.2. These values explain the high invasion capacity of this weed in the local summer irrigated fields, which consists in assuring their presence through a persistent soil seed bank and increasing the probability to spread to other fields. This revised version was published online in July 2006 with corrections to the Cover Date.     

An introduction experiment of an herbivorous lady beetle: Characteristics of the adult population

In May 1971, 45 adults of an herbivorous lady beetleEpilachna niponica (Coleoptera: Coccinellidae) from Asiu Experimental Forest were introduced into a botanical garden of Kyoto University, where is 10 km south of the southern limits of its distribution with being 3–5°C warmer than the original site. The introduced population of the lady beetle was thus investigated from 1975 to 1981. Mark-release-recapture experiments were applied to individual adult beetles, to estimate population size and daily survival rate. Overwintering adults emerged from hibernation around early April, reaching peak numbers in late April to early May, then gradually declined to late June. No adults remained at the end of June. Adult survival was maintained at a high level to early May, and declined consistently until late in the reproductive season. New adults began to emerge in late June and quickly reached a peak in early July; thereafter they decreased in number and had entered hibernation by late October. In spite of seasonally deteriorating food resources and heat stress in summer, new adults showed moderately high survival during the inimical period. New adults which emerged later in the season tended to be smaller in body size than those that emerged early. The proportion of females in the new adult population gradually increased throughout the pre-hibernating period, suggesting that male-biased mortality occurred during this period. When compared to the source population, the introduced population had a higher rate of population growth. Coupled with the improved population growth, heavy leaf damage during the larval period suggested that intensive intraspecific competition was most likely to occur among larvae in the introduced population.     

内蒙古荒漠草原亚洲小车蝗的种群动态

2010—2011年于内蒙古乌兰察布市四子王旗格根塔拉草原对亚洲小车蝗Oedaleus asiaticus(B.-Bienko)种群动态进行了研究。结果表明,亚洲小车蝗种群空间格局为随机分布;亚洲小车蝗于6月中旬开始孵化出土,1～3龄蝗蝻高峰期在6月中下旬至7月初,终见期在7月下旬;4～5龄蝗蝻于6月下旬始见,高峰期在7月上中旬,终见期在7月末;成虫于7月上旬始见,高峰期在7月中旬至8月下旬,终见期在9月上旬。应用最优分割法将亚洲小车蝗种群动态划分为3个阶段:(1)6月中旬,为蝗蝻开始出土期,数量稀少,空间格局为聚集分布或随机分布;(2)6月下旬至7月上中旬,为蝗蝻发生盛期,密度低时为随机分布,密度高时为聚集分布;(3)7月中下旬至9月上旬,为成虫发生期,空间格局为随机分布。     

落叶松尺蠖Erannis ankeraria Staudinger的生物学特性

【目的】明确落叶松尺蠖Erannis ankeraria Staudinger的发生规律及生物学特性。【方法】野外调查和室内饲养。【结果】在集宁市落叶松尺蠖1年1代,以卵越冬,越冬卵在翌年4月下旬、5月上旬孵化,6月中下旬开始入土化蛹,成虫于9月初羽化、产卵。在温度为20℃,RH=70%的条件下,落叶松尺蠖幼虫期(19.96±0.86)d,预蛹期(3.93±0.95)d,蛹期(108.4±13.17)d。蛹分布于树干基部30~90cm范围内,深度4~8 cm。雄虫在6:00—8:00及12:00—16:00羽化,早于雌性,雌虫在20:00—24:00羽化,羽化若干小时后可交尾,交配持续时间20~260 min,可多次交尾。20℃下交尾雌虫寿命为(5.56±1.47)d,雄虫为(3.95±0.95)d,产卵量为(162.2±69.9)粒;不交尾雌性为(8.03±2.90)d,雄性为(4.38±1.59)d,产卵量为(164.1±81.3)粒,但卵不能孵化;15℃条件下不交尾雌雄寿命分别为(14.48±6.67)d,(6.64±1.76)d,产卵量为(145.7±76.8)粒。【结论】落叶松尺蠖危害期短,蛹期较长,雌雄成虫羽化时间有差异;温度和交尾对寿命和产卵量都有显著影响。     

小兴安岭三种林型叶面积指数的估测

利用Winscanopy2006冠层分析仪测定2009年7月初至11月初小兴安岭白桦次生林、谷地云冷杉林、阔叶红松林的有效叶面积指数(LAIe),并将经过木质部分所占比率、冠层水平集聚和簇内集聚校正的11月初LAIe作为真实叶面积指数(LAIt),结合凋落物法测定3种林型的LAIt及其季节动态.结果表明:调查期间,白桦次生林的LAIe在7月达到峰值(2.21),谷地云冷杉林、阔叶红松林的LAIe在8月达到峰值,分别为2.57、2.68.白桦次生林、谷地云冷杉林、阔叶红松林的LAIt均在7月达到峰值,分别为3.44、3.86、6.93;相对于本文探讨的方法,光学仪器所测定的LAIe在最高叶面积指数期分别低估33.1％、32.9％、66.0％;而在整个调查期内,谷地云冷杉林和阔叶红松林LAIe平均低估22.8％和56.5％,白桦次生林平均高估13.2％.     

小兴安岭三种林型叶面积指数的估测

利用Winscanopy2006冠层分析仪测定2009年7月初至11月初小兴安岭白桦次生林、谷地云冷杉林、阔叶红松林的有效叶面积指数(LAI_e),并将经过木质部分所占比率、冠层水平集聚和簇内集聚校正的11月初LAI_e作为真实叶面积指数(LAI_t),结合凋落物法测定3种林型的LAI_t及其季节动态.结果表明： 调查期间,白桦次生林的LAI_e在7月达到峰值(2.21),谷地云冷杉林、阔叶红松林的LAI_e在8月达到峰值,分别为2.57、2.68.白桦次生林、谷地云冷杉林、阔叶红松林的LAI_t均在7月达到峰值,分别为3.44、3.86、6.93;相对于本文探讨的方法,光学仪器所测定的LAI_e在最高叶面积指数期分别低估33.1%、32.9%、66.0%;而在整个调查期内,谷地云冷杉林和阔叶红松林LAI_e平均低估22.8%和56.5%,白桦次生林平均高估13.2%.
     

LEAF GROWTH AND PHENOLOGY OF THE DIMORPHIC HERBACEOUS LAYER FERN DANAEA WENDLANDII (MARATTIACEAE) IN A COSTA RICAN RAIN FOREST

Leaf growth and spore release in Danaea wendlandii were monitored under temperate greenhouse conditions and in a rain forest at the La Selva Biological Station in Costa Rica. Sterile leaf (trophophyll) growth occurs in four phases, and fertile leaf (sporophyll) growth occurs in five phases. Trophophylls show an initial rapid increase in length for a 4-week period, attain full maturity at 8 weeks, and remain on the plant for about 3 years. There appears to be a seasonal pattern of trophophyll growth, with crozier emergence rates in May and June three times higher than the mean annual rate. Sporophyll growth shows a double sigmoid pattern. For about 3 weeks after crozier emergence, there is a rapid increase in length. This phase is followed by a 10-week period with no appreciable change in length. Rapid elongation over a 2-week period precedes spore release; this is followed within 2 weeks by disappearance of the sporophyll. Sporophylls in the rain forest are subject to 14% mortality prior to maturation, with most mortality occurring in later stages of growth. A projected phenology based on the sporophyll growth curve shows peaks in spore release late in the wet season with a concomitant peak in sporophyll emergence early in the wet season during the 15-month period from June 1986 through September 1987.     

Litterfall and Leaf Consumption by Animals in Humid Seasonal Rainforest in Xishuangbanna,China

Litterfall and element return dynamic and leaf consumption by animals were studied in humid seasonal rainforest in Menglun, Xishuangbanna, Southwesten China. 1. The litterfall was l1.29+l.96t/ha·a, and the amount of litterfall component was (t/ha·a±S. E.): for leaves, 7.41±0.82; wood (≤2 cm diameter), 2.16±1.78; flowers, 0.223±0.13; fruits, 0.7244±0.456 and mixed matter (includs plant trash, wastes of animals and died animal bodies from canopy), 0.77±0.18. A marked peak of litterfall occurred during a March-April period of the late dry season. 2. Large wood litterfall (>2 cm diameter) was measured twice during rainy season and dry season, the large wood litterfall mean was 0.82t/ha·a. 3. Returns (kg/ha·a) of the elements to the forest floor in the litterfall were ranged Ca (146.4) > N (57.3) > Mg (39.0) 3> K(31.2) > P (6.33) > Mn (5.49) 2> A1(4.40) > Fe(1.92) > Zn(0.56) > Cu (0.24).and a marked peak of element return coincided with the litterfall's. 4. The leaf area eaten by animals accounted for 16.2% of the total leaf area.     

Stage-specific population dynamics of cottony cushion scale,Icerya purchasi (Hemiptera: Monophlebidae), in citrus orchards in Jeju,Korea

The cottony cushion scale, Icerya purchasi Maskell (Hemiptera: Monophlebidae), is a polyphagous, cosmopolitan and destructive pest of citrus. This study was conducted to obtain the stage-specific phenology of I. purchasi for seasonal management strategies in the field. Movement of crawlers (hatched nymphs) in egg sacs of overwintered females started in late May, peaked in early to mid-June, and was completed by late June. Generally, the 1st generation occurred from late May until late September and the overlapping second generation occurred from early September. The 1st nymphs in the 1st generation peaked in mid June. The 2nd nymphs showed peak activity in late July. The 3rd nymphs showed peak population in early September. The 1st generation adults peaked in mid September. In the 2nd generation, the 1st nymphs peaked in early October, the 2nd nymphs showed peak activity in late October, and the 3rd nymphs reached a plateau after mid October. The 2nd generation adults occurred from late October. Consequently, two life cycles were competed in the Jeju area. The average fertilities of I. purchasi were 623 and 247 crawlers per female in overwintered and summer generations, respectively. An average of 20.7% of all citrus orchards was infested with I. purchasi, with a mean of 3.9% infested trees in Jeju. These results should be useful in establishing management strategies for I. purchasi in citrus orchards.     

黄海太平角鼠尾藻有性繁殖分配

以位于黄海的青岛太平角自然生长的鼠尾藻为对象,研究其有性繁殖分配动态及相关环境因子.结果表明:鼠尾藻于6月初开始进入有性繁殖期,于7月中旬海水温度22℃左右达到繁殖高峰,7月19日平均繁殖分配(RA)达76.7%,8月末有性繁殖结束.鼠尾藻繁殖分配与平均分枝长度呈显著线性相关(r=0.855,P<0.01).长度在10cm以下的藻体在整个繁殖期内的RA较低,而长度在10cm以上的藻体在成熟高峰期的RA在70.0%以上.析因方差分析表明,潮位和浪冲击度均对鼠尾藻有性繁殖分配有显著影响(潮位:F=175.62,P<0.001,浪冲击度:F=95.35,P<0.01),且二者之间存在交互作用(F=9.14,P<0.05).其对RA的影响大小依次为潮位>浪冲击度>潮位×浪冲击度.     

茴香薄翅野螟发生动态的调查

经调查研究表明:在青海省的油菜种植区,茴香薄翅野螟Evergestis extimalis Scopoli越冬幼虫从6月初开始化蛹,6月中旬化蛹率达为80%,到6月下旬化蛹率达到100%;成虫于7月上旬开始羽化,7月15～20日为成虫羽化高峰;田间卵始见期为6月下旬至7月上旬,7月中旬达到产卵高峰期;越冬幼虫平均死亡率为96.63%。     

Reproductive cycle of the blacknose shark Carcharhinus acronotus in the Gulf of Mexico

The reproductive periodicity of blacknose sharks Carcharhinus acronotus in the northern Gulf of Mexico was determined by examining reproductive tissues from specimens collected monthly from 2002 to 2005. Monthly changes in shell gland mass, right ovary mass and ovarian follicle diameter were assessed for 74 mature females. Temporal changes in testes mass, testes width and proportion of mature spermatocysts were examined for 64 mature males. Trends in female reproductive tissues suggested an annual peak in reproductive activity during June and July, while trends in male variables suggested an annual reproductive peak during May and June. Although male and female reproductive activity peaked in different months, a strong synchronicity existed between the proportion of mature spermatocysts and the diameter of the largest ovarian follicle. Based on these results, the mating season of blacknose sharks lasts from mid-May to July in the Gulf of Mexico. Maximum embryo sizes were observed in May, which suggested that partition occurs during late May or early June. Results indicate that blacknose sharks have a clearly defined annual cycle in the Gulf of Mexico. This conclusion is further supported by the complete absence of gravid females without vitellogenic ovarian follicles among all mature females examined.     

寒温带兴安落叶松林土壤温室气体通量的时间变异

采用静态箱/气相色谱(GC)法,对寒温带兴安落叶松林区6-9月生长季土壤CO2、CH4和N2O通量进行原位测定,研究了土壤温室气体通量的季节和昼夜变化及其与环境因子的关系.结果表明:在生长季,兴安落叶松林土壤为大气CH4的汇,吸收通量为22.3～107.8 μg CH4-C·m-2·h-1,6-9月月均甲烷吸收通量为(34.0±7.1)、(71.4±9.4)、(86.3±7.9)和(40.7-±6.2) μg·m-2·h-1;不同季节土壤CH4昼夜通量的变化规律相同,一天中均在10:00达到最大吸收高峰.土壤CO2日通量呈明显的双峰曲线,月均CO2通量大小顺序为7月＞8月＞6月＞9月.土壤N2O通量变异较大,在-9.1 ～31.7μg·m-2·h-1之间.土壤温度和湿度是影响CO2和CH4通量的重要因子,N2O通量主要受温度的影响.在兴安落叶松林区,10:00左右观测获得的温室气体地-气交换通量,经矫正后可以代表当日气体通量.     

Colonization Strategies of Two Liana Species in a Tropical Dry Forest Canopy

Lianas impose intense resource competition for light in the upper forest canopy by displaying dense foliage on top of tree crowns. Using repeated access with a construction crane, we studied the patterns of canopy colonization of the lianas Combretum fruticosum and Bonamia trichantha in a Neotropical dry forest in Panama. Combretum fruticosum flushed leaves just before the rainy season, and its standing leaf area quickly reached a peak in the early rainy season (May–June). In contrast, B. trichantha built up foliage area continuously throughout the rainy season and reached a peak in the late rainy season (November). Both species displayed the majority of leaves in full sun on the canopy surface, but C. fruticosum displayed a greater proportion of leaves (26%) in more shaded microsites than B. trichantha (12%). Self-shading within patches of liana leaves within the uppermost 40–50 cm of the canopy reduced light levels measured with photodiodes placed directly on leaves to 4–9 percent of light levels received by sun leaves. Many leaves of C. fruticosum acclimated to shade within a month following the strongly synchronized leaf flushing and persisted in deep shade. In contrast, B. trichantha produced short-lived leaves opportunistically in the sunniest locations. Species differences in degree of shade acclimation were also evident in terms of structural (leaf mass per area, and leaf toughness) and physiological characters (nitrogen content, leaf life span, and light compensation point). Contrasting leaf phenologies reflect differences in light exploitation and canopy colonization strategies of these two liana species.     

气候暖化对解冻期不同纬度兴安落叶松林土壤氧化亚氮释放的影响

春季解冻期北方森林土壤释放出大量的N₂O,是大气温室气体的主要来源之一.本研究将分布于塔河(52°31′ N)、松岭(50°43′ N)、孙吴（49°13′ N）和带岭（47°05′ N）4个纬度上林分状况相似的兴安落叶松林样地（包括幼树、地被物和A、B层土壤）移置至其自然分布区南缘,模拟气候暖化,分析春季解冻期土壤N2O通量的时间动态及其影响因子.结果表明：各处理的土壤N2O释放高峰均出现在解冻中后期.带岭、孙吴、松岭和塔河样地土壤解冻期的土壤N₂O平均通量分别为（66.5±9.3）、（54.3±5.6）、（44.3±5.3）和（33.5±3.7） μg·m^-2·h^-1;土壤N₂O通量与5 cm土壤温度和0～10 cm土壤微生物生物量碳呈显著正相关,但与土壤含水率的相关性不显著.解冻期4个处理的土壤N₂O释放差异显著,其平均通量和累积释放量均随纬度升高而下降.这种差异主要是由于不同纬度土壤的微生物活性和土壤物理性质的差异引起的.     

The effects of soil moisture at the time potato tubers are forming on the incidence of common scab (Streptomyces scabies)

Two complementary field experiments at Rothamsted in 1965, with the potato variety Majestic, related the incidence of common scab (Streptomyces scabies) to rainfall, soil moisture and time of tuber formation. In plots where the soil was maintained at field capacity (less than 10 cm. Hg moisture tension) by watering, tubers had little or no scab; infection increased in amount on plots allowed to dry to 30 cm., 50 cm. or more Hg moisture tension during late June. The time tubers formed was varied by planting sprouted (chitted) and non-sprouted seed tubers, and tuber development and scab incidence were observed on sample plants lifted at frequent intervals from unwatered plots. Scab lesions were first seen on 12 July when the distribution of lesions on the surface of tubers was affected by size of tuber both within and between the different seed-tuber treatments. These differences were correlated with estimates of tuber size on 28 June, the beginning of the first dry period. Tubers 1.0 cm. or more in diameter on 28 June had few or no lesions at the stolon attachment (heel) end of tubers on 12 July, whereas tubers smaller than this on 28 June had many lesions in this region on 12 July. The larger the tuber was on 28 June, the greater was the area free from scab lesions on 12 July.     

古尔班通古特沙漠某些短命植物叶片N、P化学计量特征的季节变化

短命植物是荒漠生态系统的重要组成部分。为了解短命植物叶片N、P化学计量特征随生长季变化的特点,选择古尔班通古特沙漠6种优势短命植物(3种一年生短命植物,3种多年生类短命植物)为研究对象,对比了2种生活型短命植物叶片N、P化学计量特征随生长季变化特点。结果表明,3种一年生短命植物尖喙牻牛儿苗(Erodium oxyrrhynchum)、小花荆芥(Nepeta micrantha)以及条叶庭芥(Alyssum linifolium)N含量平均值(±标准差)分别为(11.23±7.16)、(14.11±6.38)和(10.85±6.14)mg·g–1;P含量平均值分别为(2.82±0.73)、(3.12±1.24)和(3.43±0.55)mg·g–1;3种多年生类短命植物独尾草(Eremurus chinensis)、雅葱(Scorzonera pusilla)和簇花芹(Soranthus meyeri)N含量的平均值分别为(19.97±5.94)(15.08±4.01)和(17.94±9.03)mg·g–1;P含量平均值分别为(3.55±0.83)、(2.73±1.11)和(5.03±0.65)mg·g–1。由此可见,短命植物在生长过程中叶片N-P化学计量特征存在一定差异。各物种N、P含量在生长初期都大于其它生长季节,在生长旺季随叶片生物量增加,N、P含量呈下降趋势;而在生长末季N、P含量又有所回升。相关性分析表明,不同生活型短命植物元素间的关系存在差异,但同一生活型短命植物元素间的关系并无显著差异,体现了种内一致性。     

Consequences of adult size for survival and reproductive performance in a herbivorous ladybird beetle

Abstract.

• 1 A univoltine herbivorous ladybird beetle Epilachna niponica (Coleoptera: Coccinellidae) shows a large variation in adult size within a population.
• 2 Large adults had higher survival from emergence to the reproductive season, and the size-dependent adult survival was most apparent during hibernation. On the other hand, adult survival during pre-hibernation contributed little to size-dependent overall survival.
• 3 Neither reproductive lifespan nor lifetime fecundity were a function of adult size, though large females produced larger size of egg batches.
• 4 Size of adult beetles was significantly reduced by leaf damage to plants on which they grew up on larval stage. Since leaf herbivory increases through the season, late emerged adults that were subjected to food deterioration during the larval period were smaller than early-emerged individuals.

     

Emergence patterns of Plecoptera in a stream in Oregon, USA

Forty-three species of Plecoptera were collected from emergence traps in an Oregon woodland stream. Adults occurred during every month of the year, but the largest numbers and most species emerged from April to June. Temporal separation of con-generic species occurred within the suborder of Filipalpia, but not in Setipalpia. Some species of Nemoura had split emergence periods. The onset of emergence for a species from year to year generally varied by less than 2 weeks. Peak emergence occurred at least 1-2 weeks after the start ofthe emergence period.