不同土壤埋藏深度下山杏(Prunus srmeniaca)种子的萌发和幼苗发育

A semi-greenhouse study was conducted to understand the effects of soil burial depth on seed germination and seedling development. The seeds of wild apricot (Prunus armeniaca) were buried at the soil depths of 0-cm, 4-cm, 8-cm, and 12-cm, respectively, to simulate the seed hoarding behavior of rodents in the field. The results revealed that the rates of seed germination and established seedlings from buried seeds were both the highest in 4-cm burial depth group, and then decreased with increasing soil depth. The number of rotten seeds increased in deeper burial depth. It is unfavourable for seed germination at 0-cm burial depth (i.e., seeds were laid on soil surface). There was insignificant effect of burial depth on growth of established seedlings. The results from this study indicated that proper burial depth in soil would be helpful for the seed germination and seedling growth. The seedlings derived from buried seeds at shallower depth (4 cm) in this research have advantage in their early development.     

Acorn hoarding by the field mouse,Apodemus speciosus Temminck (Rodentia: Muridae)

We studied population changes of the field mouse,Apodemus speciosus Temminck, by live trapping in a mixed stand of cypress and broad-leaved trees at Tama Forest Science Garden during the period from October 1991 to March 1994. We also used radiotelemetry to investigate acorn hoarding. The number of mice captured in 1992 was three to ten times higher than that in either 1991 or 1993. The home ranges of resident mice overlapped greatly, but a path and differences in the vegetation structure may have affected the home range of individuals. From June 1992 to April 1993, mice actively transported and hoarded acrons. Individuals hoarded 70% of the acorns in their home ranges within one day after release. This species was a typical scatter-hoarder and hoarded a single acorn at each cache site. Mice buried acrons in the soil at the first hoarding, but recovered and carried them into their nests later. Although more than 50% of the acorns were buried 0–5 cm deep, where the condition for germination seemed to be good, mice recovered and ate all cached acorns. Mice relocated acorns farther from the original food station as they repeated hoarding. Mice transported acorns an average of about 15–18 m (range: 2.2–49.8 m) before they ate them. From May 1993 to March 1994, the hoarding behavior of mice was not active. Most acorns were left at food stations or cache sites for more than three months. Acorn hoarding byA. speciosus probably contributes little to the dispersal and regeneration of acorn-producing trees in years with a high rodent density.     

Acorn defenses to herbivory from insects: Implications for the joint evolution of resistance,tolerance and escape

Acorn predation by insects and its effects on seedling establishment were investigated among three co-occurring oak species (Quercus variabilis, Q. serrata and Cyclobalanopsis glauca) in a subtropical evergreen broadleaved forest, Southwest China. All oak species had high tannin concentration (over 10%) but differed in acorn mass and germination schedule. We hypothesized that the defensive traits in acorns (e.g. seed mass, tannins and germination schedule) act together to reduce damage from insect seed predators. Q. variabilis had significantly lower predation (51.2%) than either Q. serrata (71.4%) or C. glauca (73.8%). Seedling establishment decreased with increasing injury for all oak species studied. As much as 43% of insect infested acorns germinated and established as viable seedlings despite extensive acorn mortality due to insect seed predators. The larger seed mass of Q. variabilis appears to tolerate insect infestation and retain enough stored reserves for seed germination and early growth of seedlings. Autumn germination also benefited Q. variabilis and Q. serrata, allowing escape from both direct and ancillary effects of insect feeding by fast reserve shifting to immediate germination of mature acorns. Our results indicate that large seed mass, tannin and autumn germination act together to ameliorate effects of insect seed predation, and the joint evolution of resistance and tolerance (as well as escape through autumn germination) in acorns may be the selective consequences driven in part by interactions with insect seed predators.     

种植深度对栓皮栎种子萌发及幼苗生长发育的影响

为了了解林木种子直播过程中,播种深度对林木种子出苗率及幼苗生长发育的影响,在济源王屋山地区次生栓皮栎林内,设置4 cm和12 cm两种播种深度,种植100枚健康栓皮栎种子,定期观察记录其发芽和成长状况。结果显示:①4 cm条件下,栓皮栎的发芽率为92%,而12 cm条件下,发芽率仅为62%,二者差异显著;②在2种种植深度下,栓皮栎幼苗的地上茎长度分别为11.79±0.55 cm和11.41±0.65 cm,差异不显著,而叶片数分别为10.33±0.68和9.54±1.13,亦无显著差异。由此可见,在一定范围内,种植深度对林木种子的发芽和出苗率有直接影响,但对出苗后幼苗的生长发育并无明显影响。     

Germination and seedling growth of Quercus vulcanica: effects of stratification, desiccation, radicle pruning, and season of sowing

Effects of stratification, desiccation, radicle pruning, and season of sowing on Quercus vulcanica germination and growth were studied to identify optimum nursery procedures for artificial regeneration of this species. Following stratification (0, 2, 4 and 8 weeks), acorns were germinated, and acorn moisture content and germination performance were also determined at various times during desiccation. In early December unsprouted acorns were planted in containers, and in early April sprouted acorns, which had been stored in polyethylene bags at 4 °C, with radicles left intact or with radicles pruned back to 1.0 cm were planted in containers.Stratification for 2 and 4 weeks did not increase germination percentage but significantly increased germination rate. Germination percentage of the seeds dropped when the moisture content of the seeds was reduced by desiccation, and the critical minimum moisture content of the recalcitrant Q. vulcanica acorns was found to be 11–16%. Spring sowing of sprouted acorns altered the morphology the containerized seedlings and caused the formation of significantly more main roots, but resulted in significantly less shoot height and shoot dry weight. Spring-sown sprouted acorns had also a significant advantage over the fall-sown unsprouted acorns in seedling survival, and thus nursery personnel should not be concerned if acorns sprout before sowing.     

Effects of insect predation on hypocotyl survival and germination success of maturequercus variabilis acorns

The rates of hypocotyl and radicle survival and of germination success were investigated in mature acorns ofQuercus variabilis Blume in relation to endosperm loss due to seed insects. The acorns were damaged by curculio weevils (Coleoptera: Curculionidae) and moths, including tortricid moths (Lepidoptera: Tortricidae); the former were more abundant than the latter. Acorns damaged by curculio weevils showed a significantly lower germination rate when there was a large endosperm loss than the rate for sound acorns. The survival rate of the hypocotyl and radicle also decreased as endosperm loss increased. These results suggest that acorn germination is directly inhibited by damage to the hypocotyl and radicle, which depends on the amount of endosperm eaten by the weevils. However, the germination rate of acorns with hypocotyl and radicle was consistently high, irrespective of the degree of endosperm loss, which suggests that weevil-damaged acorns probably germinate, provided the hypocotyl and radicle survive until the cessation of damage. Research Fellow of the Japan Society for the Promotion of Science. This study was supported in part by Grants-in-Aid for Scientific Research from the Japan Ministry of Education, Science and Culture (No. 09001647, No. 10660144, and No. 11460068) and the Nippon Life Insurance Foundation.     

栓皮栎种子虫蛀率的年际变化及其对幼苗发育的影响

为了解栓皮栎种子虫蛀率的年际变化,及虫蛀率对林木种子出苗率及幼苗生长的影响,于2010年和2011年秋季,在国有济源市愚公林场,收集成熟栓皮栎种子,调查两年的虫蛀率;于2010年9月,分别种植完好和虫蛀的栓皮栎种子各50枚,定期观察记录其发芽和生长状况。结果表明:1)栓皮栎的虫蛀率在2010年为47%,在2011为50%,二者差异不显著;2)虫蛀栓皮栎种子的发芽率为52%,完好栓皮栎种子的发芽率为88%,二者差异较为显著;3)虫蛀栓皮栎苗的生物量为1 968±400 mg,而完好栓皮栎苗的生物量为2 920±300 mg,二者差异较为显著。由此可见,栓皮栎种子虫蛀率的年际变化不大,但虫蛀对种子的发芽和出苗率有直接影响,因此,在采用种子直播造林时,应尽可能选择完好种子,以减少虫蛀对建苗的影响,提高造林成活率。     

Survival and germination of an experimental seed bank population of two species of Lauraceae in a tropical montane forest in Thailand

The survival and germination traits of two tropical species of Lauraceae, Lindera metcalfiana and Litsea cubeba, were investigated in a 2-year burial experiment and subsequent germination tests of sequentially excavated seeds. Fresh seeds extracted from fruit were packed in aluminum mesh bags and buried 5cm deep in a mature montane forest in northern Thailand (1700m altitude). No seed mortality was recorded for Litsea, but Lindera experienced 26%–48% mortality after being buried for 122 days. These seeds did not germinate in the forest soil during the 2-year experimental period. We found that fresh seeds of these two species did not germinate even under open conditions, suggesting that the seeds are initially deeply dormant after dispersal. In contrast, 29%–60% of excavated Lindera seeds germinated under open conditions after being buried for 30–753 days, and excavated Litsea seeds began to germinate after being buried for 408 days. These findings suggest that seeds enter a state of enforced dormancy. The ratio of germinable seeds peaked 184 days after burial in Lindera (33%) and 930 days after burial in Litsea (91%). The longer period of deep dormancy in Litsea prior to enforced dormancy is concordant with the fact that for regeneration Litsea requires larger-scale disturbance than Lindera.     

Effects of flood duration and season on germination of black,cherrybark, northern red,and water oak acorns

Effects of flood duration (0, 10, 20, and 30 days) and season (winter and spring) on acorn germination were tested for two upland oaks [black and northern red oak (Quercus velutina Lam. and Q. rubra L.)] and two bottomland oaks [cherrybark and water oak (Q. pagoda Raf. and Q. nigra L.)]. Acorns were stratified for 30 days before flooding at a depth of 15 cm along the edge of a small pond. After flooding, acorns were sowed in sand-filled plastic cups and germinated for 40 days. Flood duration and season strongly affected radicle and epicotyl emergence of the upland oaks, but effects were generally limited to spring flooding. Embryo axes of the upland oak acorns were severely damaged with as little as 10 days of spring flooding. Almost no epicotyls developed, but radicles developed from the connective tissues between embryo axes and the cotyledons of many acorns. Spring flooding also significantly increased the percentage of decayed acorns for the upland oaks. In contrast, germination of the bottomland oaks was slightly improved by flooding during both seasons. Results demonstrated that the effects of flooding on the distribution of species within bottomlands can begin with seed storage and germination.     

Effects of asynchronous acorn production by co-occurring <Emphasis Type="Italic">Quercus</Emphasis> trees on resource utilization by acorn-feeding insects

To clarify the effects of asynchronous seed production among tree species on the population of seed predators, we investigated the relationship between the annual variation in production of mature acorns and the insect damage in those acorns of two sympatric oak species, Quercus variabilis Blume and Quercus serrata Thunb. ex Murray, over 4 years at two study sites. The annual variation in acorn production was noticeable, with a coefficient of variation (CV) at the two sites of 1.05 and 0.80 for Q. variabilis and 0.87 and 0.73 for Q. serrata. Annual fluctuation in acorn production by Q. serrata was synchronized between the two sites. Since annual fluctuation in acorn production was not synchronized between the two species, the CVs for the total acorn production by both oak species (0.83 and 0.62 at the two sites) were lower than those for Q. variabilis and Q. serrata alone. The rate of predation by the specialist predators (Curculio weevils) on the acorns of both species was not related to the annual acorn crop size. Prolonged diapause of Curculio weevils might stabilize their populations. The rate of acorn predation by the generalist predators (tortricid moths) was also not related to the annual crop size. Asynchronous acorn production by the two oak species would help to stabilize the population.     

乐东拟单性木兰育苗试验初报

通过对乐东拟单性木兰种子进行贮藏和育苗试验研究,结果表明:乐东拟单性木兰种子通过干藏和砂藏均能发芽,干藏苗圃平均发芽率46.0%,砂藏优于干藏,达51.0%;1年苗高、地径交替出现4个生长高峰;苗木生长较快,1年苗平均地径0.46cm,平均高11.5cm,2年苗平均地径1.10cm,平均高85cm,2.5年平均苗地径1.70cm,平均高136cm,4年苗平均地径3.90cm,平均米径2.5cm,平均高252cm。     

Seed germination and seedling establishment of the monocarpic dwarf bamboo Sasa veitchii var. hirsuta

In order to determine the influences of environmental factors on seed germination and to identify the effects of germination characteristics on seedling establishment for Sasa veitchii var. hirsuta, germination experiments and a survey on current seedling dynamics were conducted in a natural habitat after mass flowering. The results of the germination experiments revealed that the seeds require a low-temperature environment for germination; those exposed to low-temperature conditions for a time similar to the length of winter (4 months of low-temperature conditions) germinated gradually, while those exposed for longer (>4 months of low-temperature conditions) germinated rapidly. These results were compatible with field observations indicating that seedlings emerged from June to October in the year after mass flowering, and they suggested this germination characteristic (i.e., variation of germination timing due to seed dormancy) may play an ecological function in spreading risk (although it may also increase the potential for seed predation). The results also revealed that stronger light and alternating temperature conditions had no effect on germination, whereas high temperatures and drying had negative effects. The outcomes of the survey on current seedling dynamics revealed that the seedling establishment ratio was high in a forest understory compared to that seen at a site where solar radiation was strong and soil water content was low. This implies that germination characteristics may promote seedling establishment in forest understory.     

Soil seed banks in a mature Hinoki (<Emphasis Type="Italic">Chamaecyparis obtusa</Emphasis> Endl.) plantation and initial process of secondary succession after clearcutting in southwestern Japan

To profile secondary succession after clearcutting a conifer plantation, we examined the composition of the soil seed bank and the process of vegetation recovery after clearcutting a mature Hinoki (Chamaecyparis obtusa) plantation in southwest Japan. We set up two study plots and collected 25 and 26 soil samples (each 20 cm × 30 cm × 5 cm depth), respectively, in April 1999, before clearcutting. Using the seedling emergence method, we detected 500–839 buried viable seeds m⁻² in 42–44 species. Soil seed banks in both plots contained typical pioneer species but few late-successional species. After clearfelling the plantation in June 1999, we censused seedling establishment for 4 years and the composition of the vegetation for 6 years. More than half of the seedlings emerged in the second year, suggesting that the timing of clearcutting is possibly critical to seedling establishment. Nineteen plant species disappeared after clearcutting, 40 species were retained and 43 species newly emerged after clearcutting. Most of the newly emerged species were pioneer species which originated in the soil seed bank. Seven of the pioneer species, as typified by Rubus crataegifolius, showed clonal growth from the third year after clearcutting. Japanese serow browsed the seedlings of major pioneer species, possibly affecting the process of secondary succession. Late-successional species such as Abies firma declined in coverage or disappeared after clearcutting. Our results suggest that the soil seed bank makes a major contribution to vegetation recovery after clearcutting, but possibly not to restoration of the late-successional species.     

Influence of temperature on germination of Quercus ilex in Phytophthora cinnamomi,P. gonapodyides,P. quercina and P. psychrophila infested soils

The influence of temperature on germination of Quercus ilex acorns in Phytophthora infested soils was quantified for the first time. Radicle damage and mortality of Q. ilex seeds germinating at 17, 20, 23 and 26°C in Phytophthora cinnamomi, P. gonapodyides, P. quercina and P. psychrophila infested soils were assessed and related to in vitro mycelium growth of the same isolates of the pathogens. The optimum growth temperatures of isolates of P. cinnamomi, P. gonapodyides, P. quercina and P. psychrophila were 20–23, 23–26, 20–23 and 20°C, respectively. At 17 and 20°C, all four Phytophthora species caused 100% acorn mortality, whereas at 26°C, acorn mortality was 100, 10, 25 and 0% in P. cinnamomi, P. gonapodyides, P. quercina and P. psychrophila infested soils, respectively. At 23°C, P. cinnamomi and P. gonapodyides reduced acorn radicle length more than P. quercina and P. psychrophila, whereas at 26°C, only P. cinnamomi caused further reduction in radicle length. The higher susceptibility of germinating acorns in comparison to seedlings reported in the literature indicates age‐related susceptibility of Q. ilex to Phytophthora. The seedling/pathogen growth ratio was inversely related to the reduction in radicle length at different temperatures ( = 0.84, p < 0.0001), suggesting that rapid germination may allow seedlings to escape from infection. Increasing temperatures had different effects on damage to acorns depending on the pathogen present in the soil, indicating that Phytophthora species × temperature interactions determined Q. ilex germination. The effects of temperature on the impacts of Phytophthora species based on climate change predictions for Mediterranean countries are discussed.     

Germination and early growth of sown Quercus robur L. in relation to soil preparation, sowing depths and prevention against predation

A field experiment was established in the autumn of 1992 in order to study predation of acorns, germination and early growth of oak seedlings. The experiment was established on a clearcut and an adjacent oak shelterwood in southern Sweden. In the experiment, a total of 6 840 acorns were sown. The sowing was carried out with different vegetation control and soil preparation treatments and with different planting depths.The germination percentage was highest for acorns sown at five cm depth and lowest for acorns sown on top of the soil, and lower for acorns sown in areas where the humus layer had been removed than in areas where the humus layer was retained. There was no difference in the percentage germination after two growing seasons between acorns sown inside the shelterwood and acorns sown on the clearcut. The height of the seedlings was lowest when the humus was removed while the number of leaves per seedling was lowest for seedlings in untreated areas after two growing seasons. Furthermore, seedlings in untreated areas showed the lowest relative height growth rate during the second growing season. In spite of higher biomass of ground vegetation in undisturbed areas compared to treated areas, no effect of the soil and vegetation control treatments could be found on soil water potentials. The soil temperature and photosynthetic active radiation at seedling level were higher in areas where soil preparation and vegetation control had been performed. However, it was concluded that neither low soil water availability nor low light levels could be the only cause of lower relative height growth rate during the second growing season for seedlings in undisturbed areas.     

Dispersal of Quercus mongolica acorns in a broadleaved deciduous forest 2. Scatterhoarding by mice

Acorn transporting and hoarding, distribution, and utilization by mice of hoarded acorns were studied. Apodemus speciosus and A. argentus were observed to transport acorns. An individual A. speciosus observed scatterhoarded at least 49% of acorns transported. The rate of acorn utilization was higher in locations where two or more acorns were buried than where a single acorn was buried. Forty-seven percent of scatterhoarded acorns disappeared before snow cover and 99% before the next spring. Based on the extent of home ranges for mice, dispersal distance is presumed to be from 30 to 40 m.     

Edge type effect on germination of oak tree species in the Highlands of Chiapas,Mexico

The purpose of this study was to examine the effect of habitat edges on the probability of acorn germination of three oak species (Quercus crassifolia Humb. and Bonpl., Quercus rugosa Née and Quercus laurina Humb. and Bonpl.). The effects of edge type (hard and soft), habitat type (grassland, edges and forest) and leaf litter cover (covered or uncovered acorns) on acorn germination was evaluated by the experimental establishment of acorns along transects crossing habitat edges. More acorns developed into seedlings in grasslands (38%) than in the forest edge (18%) or the forest interior (15%). In sites with soft edges, a higher number of seedlings emerged from acorns covered by litter compared with acorns sowed in the adjacent forest edge and forest interior (P < 0.05). In sites with hard edges, fewer seedlings emerged in the edge (14%) compared with the adjacent grassland (38%), and the adjacent forest (20%) presented intermediate values. However, in sites with soft edges significant differences in seedling emergence were recorded between the grassland (38%) and the forest (10%), whereas the edge presented intermediate values (23%). The effect of leaf litter cover on acorn germination was only significant in grasslands in sites with soft edges (P < 0.05). Acorns in grasslands received relatively little insect damage (10%) compared with the edge (19%) and the forest (30%, P < 0.05), emphasising the importance of acorn dispersal for successful oak establishment. The implications for regeneration of these oak species and the dynamics of montane oak forests in Mexico are discussed.     

The soil seed bank of the threatened plant <Emphasis Type="Italic">Magnolia stellata</Emphasis> is subordinate to the emergence of current-year seedlings

We studied seed bank formation of the threatened star magnolia, Magnolia stellata, to examine the early stage of regeneration. Forty-five seedling plots (2 × 2 m), each including a soil-sampling quadrat (40 × 40 cm), were established randomly under or around the crowns of mature M. stellata trees. Seeds of M. stellata were collected from each quadrat to a depth of 5 cm. Only four seeds of M. stellata were found (0.56 seeds/m²) and all were located under mature crowns. Current-year seedlings were abundant in water channels, on moss, or under mature crowns, suggesting that the seeds may require wet soil conditions for germination. Magnolia stellata seeds show considerable germination below the crowns of mature trees in the year following masting, while some seeds remain dormant in the soil. Considering the soil seed bank and the current-year seedling bank of M. stellata, a frequent supply of seed is essential for the regeneration of this species. Thus, it is important to maintain mature trees in addition to promoting seed production.     

Effects of nest hoarding on foraging behavior of two species of Apodemus mice,A. speciosus and A. argenteus (Rodentia: Muridae)

Food hoarding is one of the determinant factors of foraging behavior and benefits the hoarder. Two species of Apodemus mice, A. speciosus Temminck and A. argenteus Temminck, hoard acorns for later use. In 1988 and 1989, I conducted laboratory experiments to reveal the effects of food hoarding in the nest on the foraging behavior of these mice. I released a mouse into an indoor arena (2.8 × 2.8m) and recorded the foraging behavior of four female A. speciosus and four female A. argenteus mice in sessions with and without food hoarding in the nest box. Nest hoarding did not affect the time that a mouse allotted to excursions or the number of peanuts that a mouse ate during the night, but decreased the number of peanuts handled and the intensity of food handling (the number of handled peanuts per visit) at the food stations. The decrease in food handling outside the nest box, which seemed to be beneficial to the survival and reproduction of the hoarder in the field, was more apparent in A. speciosus than in A. argenteus. The different behavioral responses in foraging behavior to nest hoarding between two Apodemus mice may be related to their different microhabitat preferences.