蚌类种群迁移过程的演变

V. Razlutskij
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引用次数: 0

摘要

当地栖息地的固有种群增长率(r)由出生-死亡比率和迁移过程决定。在自然种群(包括 Cladocera)中,r 是以时间间隔结束时和开始时种群密度的对数差来估算的。根据这种评估方法,迁移过程已经包含在最终的种群密度中。根据与年龄有关的死亡率和生育率数据,可以用生命表法确定实现的内在人口增长率(rmax)。在 rmax、首次繁殖时间(Drepr)和繁殖期平均受精率(mean_mx)之间发现了很高的回归关系(R2 = 0.867)。对于大多数鞘翅目昆虫来说,Drepr 是已知的,而 mean_mx 模拟值则很容易在其自然种群中确定;这些参数可用于评估可能的种群内在增长率(rcalc)。r 和 rcalc 之间的差异可用于评估迁移过程。如果这些差值为正数,则说明有个体从种群中迁出;如果这些差值为负数,则说明有移民涌入。
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Evolution of migration processes in Cladocera populations
An intrinsic rate of population increase (r) in a local habitat is determined by the birth-to-death ratio and by migration processes. In natural populations, including Cladocera, r is estimated as the logarithm difference of population densities at the end and at the beginning of time interval. Under this method of evaluation, migration processes are already included in the final population density. A realized intrinsic rate of population increase (rmax) can be determined from the data on age-related mortality and fecundity by the life table method. The high regression relation (R2 = 0.867) was found between rmax, the first time of reproduction (Drepr) and mean fecundity during the reproduction period (mean_mx). Drepr is known for most of Cladocera, the mean_mx analog can be easily determined in their natural populations; these parameters can be used to evaluate a possible intrinsic rate of population increase (rcalc). The differences between r and rcalc can be used to evaluate migration processes. If these differences are positive, then individuals are emigrating from the population, if they are negative, then there occurs the influx of immigrants.
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