Age dynamics of the population gene pool of the Crimean pine (<Emphasis Type="Italic">Pinus Pallasiana</Emphasis> D. Don) in Crimea

Polymorphism of young (14–16 years), middle-aged (70–80 years) and old (120–150 years) plants and their seed embryos have been studied using 10 and 20 allozyme loci from a population of Pinus Pallasiana D. Don from Mountain Crimea. It was determined that the old-aged trees had significantly lower level of expected heterozygosity of embryos in comparison with young trees. Supernumerary homozygotation of the embryos was caused by low level of cross-pollination in three studied samples of plants (t _m = 0.537–0.637).     

Age dynamics of genetic variation in an isolated population of chalk pine Pinus sylvestris var. cretacea Kalenicz. ex Kom. from Donbass

Based on analysis of variation at ten allozyme loci in three age groups (25-35, 40-80, and more than 100 years of age) of plants and in seed embryos, demographic dynamics of the gene pools was studied in a small (60.5 ha) isolated relict population of chalk pine Pinus sylvestris var. cretacea Kalenicz. ex Kom. from the steppe zone of Ukraine. The observed grenotype proportions in these tree groups were shown to fit Hardy-Weinberg expectations, while in the embryos of their seeds, an excess of homozygotes was observed at five to nine loci. The mean observed heterozygosity in the sample of old (> 100 years of age) trees (H(O) = 0.225) was substantially lower than in trees of the two other age groups (H(O) = 0.307; 0.311), but significantly higher than in the corresponding embryo samples (H(O) = 0.183-0.207). No allele and genotype heterogeneity of the maternal trees and embryos of their seeds was found. However, heterogeneity was high when the progeny of trees of different ages, particularly in pairs with old trees, were compared.     

Age dynamics of genetic variation in an isolated population of chalk pine Pinus sylvestris var. cretacea Kalenicz. ex Kom. from Donbass

Based on analysis of variation at ten allozyme loci in three age groups (25–35, 40–80, and more than 100 years of age) of plants and in seed embryos, demographic dynamics of the gene pools was studied in a small (60.5 ha) isolated relict population of chalk pine Pinus sylvestris var. cretacea Kalenicz. ex Kom. from the steppe zone of Ukraine. The observed grenotype proportions in these tree groups were shown to fit Hardy-Weinberg expectations, while in the embryos of their seeds, an excess of homozygotes was observed at five to nine loci. The mean observed heterozygosity in the sample of old (>100 years of age) trees (H _O = 0.225) was substantially lower than in trees of the two other age groups (H _O = 0.307; 0.311), but significantly higher than in the corresponding embryo samples (H _O = 0.183–0.207). No allele and genotype heterogeneity of the maternal trees and embryos of their seeds was found. However, heterogeneity was high when the progeny of trees of different ages, particularly in pairs with old trees, were compared.     

Genetic variability of maternal plants and embryos of their seeds in the populations of <Emphasis Type="Italic">Pinus kochiana</Emphasis> Klotzsch ex Koch in Crimea

Samples of trees and seed embryos of five Pinus kochiana Klotzsch ex Koch populations in Crimea were comparatively studied at 12 allozymic loci for its genetic variability and mating system. It has been shown that the embryos of seeds reproduce the allelic diversity of maternal plants, but the level of their observed heterozygosity (H_o) is significantly lower, i.e., 0.286 vs. 0.189, respectively. Unlike maternal trees, embryos are characterized by a significant divergence between the observed distribution of genotypes and the theoretically expected one according to the Hardy–Weinberg law for the majority of analyzed loci. The frequency of cross pollination in populations varied from 0.384 to 0.673 according to single-locus (t_s) estimates and from 0.639 to 0.841 according to multilocus (t_m) estimates.     

Allozyme variation of seed embryos and mating system in relict populations of Scots pine (Pinus sylvestris L.) from the Kremenets Hill Ridge and Maloe Poles'e

Allozyme variation at ten polymorphic loci and mating system was studied in three small isolated relict populations (4.4 to 22 ha) and in three artificial stands of Pinus sylvestris from the Kremenets Hill Ridge and Maloe Poles'e. It was established that the mean heterozygosity of 130 to 140 year-old trees from natural populations (H(O) = 0.288; H(E) = 0.277) was substantially lower, compared to 30 to 40 year-old trees from artificial stands (H(O) = 0.358; H(E) = 0.330). The observed heterozygosity of seed embryos (H(O) = 0.169 and 0.180) was substantially lower than of the mature trees from populations and artificial stands, respectively. In the embryo samples, irrespectively of the forest stand origin, substantial hetedrozygote deficiency was observed (at six to eight loci), compared to the Hardy-Weinberg expectations. The proportion of cross pollination in the populations and artificial stands was low, t(m) = 0.588 to 0.721; and t(m) = 0.455 to 0.837, respectively.     

Dynamics of allozyme heterozygosity in Siberian dwarf pine Pinus pumila (Pall.) Regel populations of the Russian Far East: comparison of embryos and maternal plants

Siberian dwarf pine, or Japanese stone pine, Pinus pumila (Pall.) Regel is widespread in eastern Siberia and the Russian Far East; the species is bird-dispersed and has a unique spreading or shrub living form. A mixed mating system (predominant outcrossing with self-pollination and matings of close relatives) leads to the formation of partly inbred progenies in P. pumila, as in the majority of other conifers. The question arises as to whether inbred individuals persist in the reproductive part of a population, which can have negative genetic consequences. The ADH, FDH, FEST, GDH, GOT, IDH, LAP, MNR, MDH, PEPCA, 6-PGD, PGI, PGM, SKDH, and SOD isozyme systems were analyzed to study the dynamics of heterozygosity in four P. pumila natural populations from the Pacific region, optimal for the species. Samples were collected in northern Koryakia, southern Kamchatka (two samples), and the Kunashir Island (Kurils). Wright's fixation index was used to estimate the level of inbreeding in embryos from dormant seeds resulting from free pollination and in maternal plants. A substantial level of inbreeding (F(IS) = 0.124-0.342) was observed in the embryo samples but not in three out of the four adult samples. The inbreeding level at the reproductive age was high only in the sample from Koryakia, which was explained by a relatively young age of plants in the population frequently affected by fires. A general increase in heterozygosity, characteristic of other conifers as well, was attributed to elimination of inbred progenies and by balancing selection for heterozygotes, which is a key factor maintaining allozyme polymorphism in populations.     

Variation at enzyme coding loci and correlates of fitness in rainbow trout: a cohort analysis

An association between heterozygosity at six to nine enzyme coding loci and correlates of fitness (survival, age at first maturation) was tested in two cohorts of rainbow trout Oncorhynchus mykiss reared in the laboratory. A subsample offish from the first cohort was reared together for 3 years. There, fish sampled as embryos, juveniles and adults did not differ significantly in multilocus heterozygosity (MLH, numbers of heterozygous loci per fish). However, fish that died during a period of high natural mortality had significantly greater MLH than those sampled before as hatched embryos and later as adults. The number of homozygotes and heterozygotes at three loci differed significantly among different aged fish but in different directions. Allele counts at two of these loci also differed among samples. In a second cohort, the heterozygosity of fish that died during the period of high natural mortality was compared with that of healthy fish collected at the same time; no significant differences in MLH or allele frequencies were detected. Taken together, the lower MLH of the natural mortalities as well as single locus effects observed in the first cohort might be explained by the differential survival of fish with particular genotypes leading to changes in heterozygosity of the entire cohort over time rather than heterozygosity per se . Age of first maturation and heterozygosity (MLH and single locus) were not associated in males but were marginally so in females. Time of ovulation within the spawning season was not associated with the MLH of females.     

Root deformation in plantations of container-grown Scots pine trees: effects on root growth,tree stability and stem straightness

Root system deformation was studied in 23 Scots pine (Pinus sylvestris L.) stands in central Sweden. The study comprised both plantations created with container-grown plants (Paperpot) and natural stands including young (7–9 year old) and older (19–24 year old) trees. Trees were measured with regards to distribution of roots, root deformation, stability, stem straightness and wood properties in stumps. Root distribution was most uniform for naturally regenerated trees. Older trees generally showed a better root distribution than young trees. The young planted trees displayed a high frequency of severely spiralled root systems, while only a few of the older trees had spiralled root systems. No severe root deformations were observed on naturally regenerated trees. Naturally regenerated trees were more stable than those which had been planted. Differences in bending moment, when trees were pulled to an angle of 10°, were considerable between young planted and naturally regenerated trees, but less pronounced for the older trees. Young planted trees had the highest frequency of severely crooked stem bases, while naturally regenerated trees had the straightest mode of growth. Tensile strength in peripheral wood samples of the stumps was substantially lower for planted than for naturally regenerated trees. Strain values to breakage of wood samples, taken from the root collar and the central- and peripheral part of the stump were lower for planted trees. The conclusions from this study are that root distribution, tree stability and stem straightness of planted Paperpot-grown trees will improve after a certain time and approach the state of naturally regenerated trees. As trees grow older, early established crooked stem bases will be compensated by radial growth and the tree will appear straighter. Inside the stem, however, problems may still remain with abnormal fibre direction and compression wood together with inferior root strength due to fibre disturbances as a result of spiralled roots. This revised version was published online in June 2006 with corrections to the Cover Date.     

Allozyme variation of seed embryos and mating system in relict populations of scots pine (<Emphasis Type="Italic">Pinus sylvestris</Emphasis> L.) from the Kremenets Hill Ridge and Maloe Poles’e

Allozyme variation at ten polymorphic loci and mating system was studied in three small isolated relict populations (4.4 to 22 ha) and in three artificial stands of Pinus sylvestris from the Kremenets Hill Ridge and Maloe Poles’e. It was established that the mean heterozygosity of 130 to 140 year-old trees from natural populations (H _O = 0.288; H _E = 0.277) was substantially lower, compared to 30 to 40 year-old trees from artificial stands (H _O = 0.358; H _E = 0.330). The observed heterozygosity of seed embryos (H _O = 0.169 and 0.180) was substantially lower than of the mature trees from populations and artificial stands, respectively. In the embryo samples, irrespectively of the forest stand origin, substantial hetedrozygote deficiency was observed (at six to eight loci), compared to the Hardy-Weinberg expectations. The proportion of cross pollination in the populations and artificial stands was low, t _m = 0.588 to 0.721; and t _m = 0.455 to 0.837, respectively.     

Comparative study of allozyme polymorphism in groups of pine trees (Pinus sylvestris L.) with different seed productivity

Genotypes of 196 Pinus sylvestris L. plants from 10 natural populations of five Ukrainian regions have been determined using 19 polymorphic isozyme loci. Variability of quantity of full-grained, empty-grained and underdeveloped seeds in the cones of these plants has been studied. The basic indexes of genetic polymorphism were determined for 6 samples presented by 18-19 trees with high and low productivity of the full-grained, empty-grained and underdeveloped seeds. The maximum amount of rare alleles and genotypes as well as the highest heterozygosity (Ho = 0.285) were typical for the sample of plants with the maximum quantity of empty-grained seeds in the cones.     

Population biology of small mammals in Pureora Forest Park .2. The feral house mouse (

Over five years from November 1982 to November 1987, we examined 395 mice collected from unlogged and logged native forest and from exotic forest at Pureora Forest Park, in the central North Island of New Zealand. Sex ratio, litter size, and breeding effort (pregnancy rate in females, proportion of males with visible tubules) were similar in all samples. By contrast, both density (captures per 100 trap-nights = C/ 100TN) and recruitment (proportion of young mice of age classes 1-3) were higher in densely vegetated habitats (along the road edge or in a young exotic plantation) than in the forest interior, whether logged or not. The age structures of the road edge and interior forest samples were significantly different (road edge, 33-35% young; interior, 10-11% young, means adjusted for sex, season and year by GLM). Mice of a given age caught in summer were larger, especially the females, implying that young mice grew faster in summer than at other seasons, and that older mice, especially females, also put on extra weight in summer. Most pregnant mice were found in spring and summer, but there was no winter quiescence in mature mice of either sex, and three of 29 pregnant females were collected in August. In five of 29 litters of embryos, at least one embryo was resorbing, totalling 12 of 161 embryos (7.4%). Litter size (viable embryos only) ranged from 5 to 8 (average 6) in 23 spring and summer pregnancies, but only 1-5 in four autumn and winter pregnancies. At high densities during 1984 in the young plantation (41.1 C/100TN in May) mice were significantly smaller in autumn, though somewhat larger in spring, and fewer young were recruited in 1984 and 1985. In these years we found significantly fewer males fertile, litters smaller and pregnancy rates lower, both in the plantation and in other habitats. The population Peak was much higher than most apparently similar post-seedfall Peaks in beech forest documented by the same methods, but it was different because (1) it developed very suddenly in autumn rather than building up slowly over winter and spring and Peaking in summer; (2) it was not preceded by winter breeding; and (3) it was made up mostly of mice born in the previous summer, whereas Peak populations in beech forests are usually made up of mice born during the previous winter and spring.     

黄河故道不同灌水方式刺槐人工林幼树水分利用效率和生长特性

干旱一直是限制黄河故道沙区树木生长的重要因素之一,而刺槐(Robinia pseudoacacia)以其较强的耐旱性、较高的成活率在造林时备受重视。适宜的灌水方式不但可以提高当地水资源的高效利用,而且可以促进刺槐迅速生长,改善当地环境生态。因此,在2011至2012年间,对黄河故道沙地进行刺槐人工林的建设与培育,开展滴灌(DI)、沟灌(FI)和软管喷灌(HSI)3种灌水方式对刺槐人工林幼树水分利用效率(WUE)和生长特性影响的研究。结果表明,在不同的水文年份,滴灌刺槐的净光合速率(Pn)、蒸腾速率(Tr)高于软管喷灌,软管喷灌高于沟灌。水分利用效率受年份影响较大,但均表现为前期下降,8月份前后降到最低值,随后缓慢回升。不同灌水方式叶绿素含量(CC)差异显著,滴灌条件下刺槐叶绿素含量最高,其次为软管喷灌,沟灌最低。不同树龄,不同灌水方式刺槐株高、地径和胸径差异显著。一年生林,滴灌刺槐的株高、地径和胸径分别比软管喷灌高出23.4、0.27 cm和0.14 cm;二年生林,滴灌刺槐的株高、地径和胸径分别比软管喷灌高53.7 cm、0.61 cm和0.54 cm。滴灌刺槐的株高、地径和胸径的年度生长量分别为软管喷灌的112.1%、107.1%和111.8%,同时分别为沟灌的121.8%、191.8%和343.6%。不同灌水方式刺槐幼树水分利用效率受年际间气象因素影响较大,滴灌可以显著地改善刺槐幼树的光合生理特性,促进其快速生长。     

Genetic diversity in a seed production population vs. natural populations of Sitka Spruce

Isozyme analysis was applied to estimate the level of variation and the genetic structure of a seed-production population (i.e., seed orchard) and 10 range-wide natural populations of Sitka spruce (Picea sitchensis (Bong.) Carr.). Gene diversity and heterozygosity estimates were comparatively high in both the seed orchard and the natural populations studied. The seed orchard population showed a significantly higher number of alleles per locus and percentage of polymorphic loci. Though not significant, mean heterozygosity of the seed orchard was higher than that observed for all natural populations. Genetic distance analysis indicated that the seed-orchard population was genetically similar to three natural populations from which the parent trees were selected. Parent trees sampling breadth has been identified as the major cause for the observed increased level. The impact of recurrent selection and seed orchard biology and management on maintaining the genetic diversity is discussed.     

Comparative analysis of genetic heterogeneity of seed progenies in the isolated population of Pinus sylvestris var. cretacea Kalenicz. ex Kom. in Donbass

The article provides the analysis of the maintenance stability of genetic structure of generatively young and middle-aged trees in seed progenies formed during two years in Donbass population of Pinus sylvestris var. cretacea Kalenicz. ex Kom. protected in Ukraine. The analysis has been carried out at 10 allozyme loci. Allele and genotype diversity of the trees is reproduced annually in seed progenies in spite of the low values of outcrossing coefficient (ts = 0,371-0,687; tm = 0,731-0,790) and significant excess of homozygotes in the embryos. Genetic structure fluctuations are observed in embryos and in the pool of paternal gametes in seed progenies of different years.     

Seasonal and intraspecific varation of flavonoids and proanthocyanidins in Cecropia glaziovi sneth. Leaves from native and cultivated specimens

Cecropia glaziovi Sneth. (syn. C. glaziovii, C. glazioui) (Cecropiaceae) is a South American medicinal plant whose antihypertensive activity is attributed to its flavonoid and proanthocyanidin contents. The seasonal and intraspecific variations of these two classes of compounds in C. glaziovi leaves were assayed by spectrophotometry in samples of young and mature leaves collected from native, cultivated and micropropagated trees in the dry and rainy periods of the year. The total flavonoid and proanthocyanidin contents ranged from (0.64 +/- 0.21)% to (3.44 +/- 0.45)% and (2.23 +/- 0.92)% to (5.36 +/- 0.95)%, respectively, among the assayed populations. The flavonoid contents in native plants did not differ statistically between young and mature leaves within the same season, whereas it was higher in both young and mature leaves collected in the dry compared to those collected in the rainy period. For cultivated specimens, the results pointed to higher contents in the dry season, whereas no significant difference was observed for leaves of micropropagated (clone) plants collected in both periods. For the assayed populations, higher proanthocyanidin contents were found in the dry season, excepting the micropropagated (clone) plants, whose contents did not differ significantly between the dry and the rainy periods. Leaves of micropropagated (clone) and cultivated specimens showed less intraspecific variation in the flavonoid and proanthocyanidin contents than those from native trees. These features suggest that, as expected, cultivation of C. glaziovi is of great interest providing raw herbal material of better uniform quality.     

Distribution of eriophyoid mites (Acari: Eriophyoidea) on coniferous trees

The aim of the paper was to determine the infestation parameters and species composition of eriophyoid mites for different parts of Norway spruce and Scots pine as well as for different age groups of the trees. The observations on the occurrence of the mites were conducted in 2004 and 2005 in 4 locations distributed in various regions of Poland, accounting for 11 environments (location x year). Three plant age groups were studied: (1) adult trees: 40–60 years old, additionally divided into three levels: top, middle and bottom; (2) young trees: 6–10 years old; and (3) seedlings: 2–3 years old. The same number of species (five) occurred on each coniferous tree, but only one, the rarest, was common on both tree species. Out of 500 samples for each species, mites were found on 279 pine (55.8%) and 252 spruce samples (50.2%). No tendency for the mites to choose any particular level on Scots pine and Norway spruce was observed. In addition, no tendency for the mites to choose trees from any of the age groups was observed for both Scots pine and Norway spruce, in the latter case the result obtained also for mite species subdivided into vagrant and refuge-seeking ones. Final conclusions were that in case of adult trees samples can be taken from the bottom part of a tree; however, sampling from young trees growing among adult trees may be seen as the most efficient sampling method.     

Impacts of forest fragmentation on the mating system and genetic diversity of white spruce (Picea glauca) at the landscape level

We studied the mating system of white spruce (Picea glauca) in a landscape fragmented by agriculture in northern Ontario, Canada. We sampled 23 stands that ranged in size from 1 to >500 trees isolated by 250-3000 m from the nearest other stand. Six polymorphic allozyme loci from four enzyme systems were used to genotype approximately 10 000 embryos from 104 families. We detected no allele frequency heterogeneity in the pollen pool among stands or families (Phi(FT)=-0.025). Overall, estimates of outcrossing were high (t(m)=94% and mean t(s)=91%) but significantly different from unity. Bi-parental inbreeding (t(m)-t(s)=3.2%) was low but significantly different from zero. Allozyme-based outcrossing estimates did not differ significantly among three stand-size classes (SSCs): small (<10 trees), medium (10-100 trees) and large (> or =100 trees). The number of effective pollen donors was high in all SSCs, but was significantly lower in small stands (N(ep)=62.5) than in medium-sized and large stands (both N(ep)=143). The primary selfing rate was significantly higher in medium stands than in large stands. We found no significant difference in genetic diversity measures in the filial (seed) population among SSCs. Overall, these results indicate that white spruce stands in this fragmented landscape are resistant to genetic diversity losses, primarily through high pollen-mediated gene-flow and early selection against inbred embryos. We discuss the importance of using seed data, in conjunction with genetic data, to evaluate the impacts of fragmentation on natural populations.     

Growth and protection against oxidative stress in young clones and mature spruce trees (Picea abies L.) at high altitudes

Clones of Norway spruce (Picea abies L.) were grown for several years on an altitudinal gradient (1750 m, 1150 m and 800 m above sea level) to study the effects of environmental × genetic interactions on growth and foliar metabolites (protein, pigments, antioxidants). Clones at the tree line showed 4.3-fold lower growth rates and contained 60% less chlorophyll (per gram of dry matter) than those at valley level. The extent of growth reduction was clone-dependent. The mortality of the clones was low and not altitude-dependent. At valley level, but not at high altitude, needles of mature spruce trees showed lower pigment and protein concentrations than clones. In general, antioxidative systems in needles of the mature trees and young clones did not increase with increasing altitude. Needles of all trees at high altitude showed higher concentrations of dehydroascorbate than at lower altitudes, indicating higher oxidative stress. In one clone, previously identified as sensitive to acute ozone doses, this increase was significantly higher and the growth reduction was stronger than in the other genotypes. This clone also displayed a significant reduction in glutathione reductase activity at high altitude. These results suggest that induction of antioxidative systems is apparently not a general prerequisite to cope with altitude in clones whose mother plants originated from higher altitudes (about 650–1100 m above sea level, Hercycnic-Carpathian distribution area), but that the genetic constitution for maintenance of high antioxidative protection is important for stress compensation at the tree line. Received: 13 October 1998 / Accepted: 22 June 1999     

Dynamics of allozyme heterozygosity in Siberian dwarf pine Pinus pumila (Pall.) Regel populations of the Russian Far East: Comparison of embryos and maternal plants

Siberian dwarf pine, or Japanese stone pine, Pinus pumila (Pall.) Regel is widespread in eastern Siberia and the Russian Far East; the species is bird-dispersed and has a unique crawling or shrub living form. A mixed mating system (predominant outcrossing with self-pollination and matings of close relatives) leads to the formation of partly inbred progenies in P. pumila, as in the majority of other conifers. The question arises as to whether inbred individuals persist in the reproductive part of a population, which can have negative genetic consequences. The ADH, FDH, FEST, GDH, GOT, IDH, LAP, MNR, MDH, PEPCA, 6-PGD, PGI, PGM, SKDH, and SOD isozyme systems were analyzed to study the dynamics of heterozygosity in four P. pumila natural populations from the Pacific region, optimal for the species. Samples were collected in northern Koryakia, southern Kamchatka (two samples), and the Kunashir Island (Kurils). Wright’s fixation index was used to estimate the level of inbreeding in embryos from dormant seeds resulting from open pollination and in maternal plants. A substantial level of inbreeding (F _IS = 0.124?0.342) was observed in the embryo samples but not in three out of the four adult samples. The inbreeding level at the reproductive age was high only in the sample from Koryakia, which can be explained by a relatively young age of plants in the population frequently affected by fires. A general increase in heterozygosity in the course of ontogeny, characteristic of other conifers as well, was attributed to elimination of inbred progenies and by balancing selection in favor of heterozygotes, which is a key factor maintaining allozyme polymorphism in populations.     

Cavitation and water storage capacity in bole xylem segments of mature and young Douglas-fir trees

Hydraulic specific conductivity, vulnerability to cavitation and water storage capacity of Douglas-fir sapwood was determined for samples from six young (1.0-1.5 m tall) and six mature trees (41-45 m tall). Measurements on samples from young trees showedthere were no effects of two contrasting sample types (entire stem segments vs sectors chiseled out of entire stems) on any of the calculated hydraulic parameters, for vulnerability to cavitation and water storage capacity. Measurements on mature trees were made on wood from four heights on the bole and from two sapwood depths. Outer and inner sapwood at the base of the tree had higher water storage capacities and were more vulnerable to cavitation than was sapwood from the tree top. At every height, old trees were more vulnerable to cavitation than at 1.0 m from the ground in young trees. The water storage capacities showed three distinct phases at the base of the trunk. Young trees had similar water storage capacity (per unit volume of sapwood) to the topof the mature trees, which was lower than the water storage capacity throughout the rest of the bole xylem. The way in which capacitance was calculated (on a volumetric basis vs a relative water content basis) affected the conclusion one would draw at the low water potentials (<-3 MPa). Within a tree, we found an apparent trade-off between having both hydraulic specific conductivity and stem water storage, and vulnerability to cavitation.