Yamagishi Hiroshi, Fukuhara Haruo
Suwa Hydrobiological Station, Faculty of Science, Shinshu University, Japan.
, 5-2-4 Kogan-dori, Suwa-shi Nagano-ken, Japan.
Oecologia. 1971 Dec;7(4):309-327. doi: 10.1007/BF00345856.
Population dynamics of two large chironomids, Chironomus plumosus and Spaniotoma akamusi in Lake Suwa were studied through a four-year period from 1967 to 1970. 1. Based on the daily catches of midge by means of light trap, three emergence periods in a year were confirmed in C. plumosus (April-May, June-July and August-October) and only one in S. akamusi (October-November). 2. C. plumosus produces three generations yearly in the littoral region. In the profundal region, however, it usually lacks the second generation and some part of the larvae of the first generation emerges finally in the third emergence period. 3. Larvae of S. akamusi disappeared from the surface layer of mud bottom in May as the result of their burrowing. Pupation and emergence took place after their reppearance at the surface layer in September. 4. In the imagines of C. plumosus trapped through an emergence period, males as a rule predominated over females (males 50-83%). The predominance of males over females was even more striking expressed in S. akamusi (males 83-93%). 5. Population density of larvae of C. plumosus attained its maximum in June (ca. 1200-5400 individuals/m in the profundal region) and in October (ca. 1500 to 2100/m in the same region) with the appearance of newly hatched larvae in the lake bottom. The maximum of biomass appeared either in correspondence to that of population density or a little later, and reached 15-90 and 10-27 g fresh weight/m in the above-mentioned periods respectively. 6. Population density of larvae of S. akamusi reached a maximum (ca. 700 to 4800 individuals/m in the profundal region) in the period from December to March. The maximum biomass was found in March (ca. 10-96 g fresh wt./m) when the growth of the larvae had been almost completed. 7. Survival rate of wintered larvae of C. plumosus was very low (ca. 6-7%) in 1968 and 1969, whereas it amounted to about 70% in 1970, followed by an unusually intensive emergence. 8. The quantity of pupae produced in an emergence period was estimated based on the numbers of larvae before and after emergence. The total amount of pupae produced per year was estimated at ca. 268-354 tons in C. plumosus and at ca. 10-168 tons in S. akamusi for the whole lake. A certain quantitative relationship was found between the total number of trapped imagines and the estimated number of pupae produced in an emergence period in both species.
1967年至1970年的四年间,对诹访湖中的两种大型摇蚊,即羽摇蚊和赤背低额摇蚊的种群动态进行了研究。1. 根据用诱虫灯每日捕获的摇蚊数量,确认羽摇蚊一年有三个羽化期(4 - 5月、6 - 7月和8 - 10月),而赤背低额摇蚊只有一个羽化期(10 - 11月)。2. 羽摇蚊在沿岸区每年产生三代。然而,在深水区,它通常没有第二代,第一代的一些幼虫最终在第三个羽化期出现。3. 赤背低额摇蚊的幼虫在5月因钻入泥底表层而消失。9月它们重新出现在表层后进行化蛹和羽化。4. 在一个羽化期捕获的羽摇蚊成虫中,通常雄性多于雌性(雄性占50 - 83%)。雄性多于雌性的情况在赤背低额摇蚊中更为显著(雄性占83 - 93%)。5. 羽摇蚊幼虫的种群密度在6月(深水区约1200 - 5400只/平方米)和10月(同一区域约1500 - 2100只/平方米)达到最大值,此时湖底出现新孵化的幼虫。生物量的最大值要么与种群密度的最大值相对应,要么稍晚出现,在上述时期分别达到15 - 90克鲜重/平方米和10 - 27克鲜重/平方米。6. 赤背低额摇蚊幼虫的种群密度在12月至3月期间达到最大值(深水区约700 - 4800只/平方米)。最大生物量在3月被发现(约10 - 96克鲜重/平方米),此时幼虫的生长几乎完成。7. 1968年和1969年,羽摇蚊越冬幼虫的存活率非常低(约6 - 7%),而在1970年达到约70%,随后出现异常密集的羽化。8. 根据羽化前后幼虫的数量估计一个羽化期产生的蛹的数量。整个湖泊中,羽摇蚊每年产生的蛹的总量估计约为268 - 354吨,赤背低额摇蚊约为10 - 168吨。在这两个物种中,捕获的成虫总数与一个羽化期产生的蛹的估计数量之间发现了一定的定量关系。
