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2.
While disturbances such as fire, cutting, and grazing can be an important part of the conservation of natural lands, some adjustments to management designed to mimic natural disturbance may be necessary with ongoing and projected climate change. Stressed vegetation that is incapable of regeneration will be difficult to maintain if adults are experiencing mortality, and/or if their early life‐history stages depend on disturbance. A variety of active management strategies employing disturbance are suggested, including resisting, accommodating, or directing vegetation change by manipulating management intensity and frequency. Particularly if land‐use change is the main cause of vegetation stress, amelioration of these problems using management may help vegetation resist change (e.g. strategic timing of water release if a water control structure is available). Managers could direct succession by using management to push vegetation toward a new state. Despite the historical effects of management, some vegetation change will not be controllable as climates shift, and managers may have to accept some of these changes. Nevertheless, proactive measures may help managers achieve important conservation goals in the future.  相似文献   
3.
本文研究了落羽杉和墨杉及其杂交后代中山杉302(落羽杉♀×墨杉♂)、中山杉407(墨杉♀×落羽杉♂)、回交代中山杉118(中山杉302♀×墨杉♂)在自然干旱胁迫和复水过程中,光合特征、抗氧化酶系统和形态特性等的响应.结果表明:随干旱时间的延长,所有植株的净光合速率逐渐降低、脯氨酸开始积累且抗氧化酶系统逐渐清除丙二醛的毒性.胁迫至第8天,落羽杉净光合速率的下降幅度最大,而中山杉118的水分利用效率最高、丙二醛含量最少;墨杉的超氧化物歧化酶活性和脯氨酸含量增长最大.复水2 d后,所有植物的参数均有不同程度的恢复,其中,中山杉118恢复速率最快,其净光合速率和脯氨酸含量分别恢复了74.4%和60.2%.复水9 d后,所有植株的测定指标基本恢复至或接近正常水平,其中,中山杉118的生物量未受影响且根冠比显著增加.植物的耐旱能力依次为墨杉>中山杉118>中山杉407>中山杉302>落羽杉.回交品种中山杉118的杂种优势明显,较大程度地遗传了墨杉的耐旱性,该结论可为耐旱中山杉品种的杂交选育和推广应用提供科学依据.  相似文献   
4.
《植物生态学报》2016,40(6):585
Aims Taxodium ‘Zhongshansha’ had a strong submergence tolerance, but the biological mechanism is not clearly defined. The respiratory metabolism for the tolerance of Taxodium ‘Zhongshansha 118’ ((Taxodium distichum × Taxodium mucronatum) × Taxodium mucronatum) to long-term flooding was investigated through the measuring and analyzing the changes in root starch and soluble sugar as well as the contents of anaerobic respiration enzymes, including lactic dehydrogenase (LDH), ethanol dehydrogenase (ADH) and pyruvate decarboxylase (PDC)), in the ‘Zhongshansha 118’ seedling. The biomass and activities of the seedling roots were also measured and analyzed.Methods 24 1-year Taxodium ‘Zhongshansha 118’ seedlings were randomly and equally divided into four groups and each group experienced one of four different levels of flooding (i.e., no flooding, waterlogging, partial submergence, deep submergence) from August 8 to November 8, 2014.Important findings The results showed that the contents of the anaerobic respiration enzymes in the seedling roots and leaves are increasing with the levels of severity of flooding, which indicated the roots and leaves adapt to long-term flooding by reinforcing their anaerobic respiration and activities of ADH that were higher than LDH for roots and leaves used in alcoholic fermentation mainly. The activities of anaerobic respiration enzymes in leaves were higher than that in roots, while leaves were more sensitive to flooding. The starch and soluble sugar in roots and leaves had similar trend with anaerobic respiration enzymes. However, roots starch was higher than leaves where soluble sugar was lower than roots. The higher content of starch were the important reason of strong submergence tolerance, and we consider the strategy to fit into long-term flooding is patience type. The paper demonstrate Taxodium ‘Zhongshansha 118’ have the physiological and the morphological properties to adapt to long-term flooding, including aerial root and basal part of stem expanded and the outer wall of the root lignified to protect the roots from flooding.  相似文献   
5.
Cores were collected from dominant pondcypress trees growing in a swamp that had received sewage effluent for 7 yr and a nearby control swamp to determine the combined effects of changes in nutrient supply and hydrologic regime on tree growth. The cores were used to measure two indices of tree growth: basal area increment (BAI) and relative basal area increment (RBAI, which accounts for differences in growth due to the size of teh tree) between 1970–1983 while one swamp remained untreated and the other received weekly additions of sewage effluent from 1974–1981. Throughout the whole period, the mean BAI and RBAI of pond-cypress trees in the untreated swamp remained unchanged, ranging between 5.55–6.38 cm2 yr–1 and 1.09–1.27% yr–1, respectively. In contrast, trees in the treated swamp increased their BAI approximately two-fold from 7.40 cm2 yr–1 prior to treatment to 14.83 cm2 yr–1 after the onset of treatment and maintained this rate of growth in the 2 yr period after cessation of treatment. Relative basal area increment showed a similar response, but the proportional increase due to treatment was less (1.5-fold factor) than for BAI. The response of pondcypress trees to the sewage effluent differed depending upon whether the trees were located in the deep or shallow water zones. Trees in the deep zone of the treated swamp had lower BAIs and RBAIs than those in the shallow zone during the treatment period, whereas in pre- and post-treatment periods growth indices were equal in both zones. No significant differences in growth between deep and shallow zones were observed during all three time periods in the control swamp.  相似文献   
6.
模拟淹水对池杉和栓皮栎光合生理生态过程的影响   总被引:8,自引:0,他引:8  
衣英华  樊大勇  谢宗强  陈芳清 《生态学报》2008,28(12):6025-6033
池杉(Taxodium ascendens)和栓皮栎(Quercus variabilis)是我国亚热带河岸带和库塘消落区常见的植物,对于河岸带和库塘消落区的水土保持和水源涵养具有十分重要的作用。研究通过测定二者的最大净光合速率、光饱和曲线、二氧化碳饱和曲线、根/茎/叶的可溶性糖含量、叶片的比叶重(Ieaf mass per unit area,LMA)和根系活力等指标研究了模拟淹水(50d)对两年生栓皮栎和池杉树苗生理生态过程的影响。在淹水过程中,栓皮栎的最大净光合速率不断下降,到试验结束时淹水处理的最大净光合速率降低为对照的9%,而且处理与对照差异极显著;而在整个淹水过程中池杉则在处理和对照间没有显著差异。淹水胁迫下:(1)淹水导致栓皮栎表观量子效率(φ)不断下降,淹水第6天降为对照的59.9%左右(P〈0.001),第26天降为对照的40.9%左右(P〈0.001),而26d的淹水对池杉的光饱和曲线却影响不大;(2)淹水导致栓皮栎羧化效率(CE)的不断下降,在正常生长条件下栓皮栎的CE为(0.331±0.075)μmolm^-2s^-1Pa^-1。淹水第10天栓皮栎的CE下降到对照的22.1%,淹水第30天降到对照的16.8%,且差异均显著(P〈0.001)。淹水对池杉的二氧化碳饱和曲线没有造成显著影响;(3)淹水导致两个种的根/茎/叶可溶性糖含量呈现动态变化。50d的淹水导致栓皮栎叶片可溶性糖含量相比于对照略有上升,茎和根可溶性糖含量显著上升。而池杉根/茎/叶可溶性糖含量对照和处理之间差异不显著;(4)淹水导致栓皮栎的比叶重持续升高,池杉的与对照没有显著差异;(5)淹水导致栓皮栎的根系活力持续下降,池杉则开始时下降后又升高,这可能与池杉在淹水过程中产生了有利于吸收氧气的不定根,而栓皮栎没有产生不定根有关。以上实验结果说明相对池杉,栓皮栎应属于对淹水较敏感的树种。短期淹水(1~10d)导致栓皮栎光合速率下降的生理生态原因应该至少包括表观量子效率和羧化效率下降两个原因。而长期淹水条件下,叶片碳水化合物的积累(LMA升高)导致的负反馈效应也可能是光合速率下降的原因之一。  相似文献   
7.
Annual growth of wetland trees has been shown to be related to variations in hydrologic regimes, however the relationship between water level fluctuations and tree growth throughout the growing season has not been documented. In a study of weekly growth patterns of three wetland tree species in a southeastern forested wetland, transfer function modeling was used to examine relationships between tree growth and the weekly changes in water levels and weekly changes in the atmospheric water balance (precipitation minus potential evapotranspiration). An autoregressive-moving average model was fit to each time series of water-level changes (input series), and the selected model was then used to filter the tree-growth (output) time series. Cross-correlations between each input and output time series were examined and significant relationships between weekly changes in water levels and tree diameter were found for Nyssa sylvatica and Taxodium distichum trees growing at sites with periodic shallow flooding. There were no significant relationships between changing water levels and tree growth in areas with permanent flooding or soil saturation. Further, changes in growth of N. sylvatica, N. aquatica, and T. distichum were significantly cross-correlated with weekly changes in the atmospheric water balance at sites with either periodic or permanent flooding.  相似文献   
8.
Abstract:  When the kalotermitid Kalotermes flavicollis Fabr. pseudergates exposed to Casuarina wood wafers treated separately with different concentrations (5, 15 and 30  μ l/2 g wood wafer) of the essential oils, their spirochaete and flagellate populations abnormally reduced in numbers and vigour. The lophomonadids Joenia sp. and Mesojoenia sp. were the most adversely affected flagellates followed by the polymastigid Foaina sp. and the trichomonadid Tricercomitus sp. The Taxodium distichum essential oil evidently appeared to have the greatest adverse effect on the flagellates (95–100% decline in numbers within 2–4 days) followed by the Eucalyptus citriodora (89–100%) and the Cupressus sempervirens oils (31–100%). While with the hindgut spirochaetes, the adverse effect seemed to be reversed where the E. citriodora essential oil had the greatest effect (54–100%) followed by C. sempervirens (46–100%) and T. distichum (8–100%) oils. Moreover, the essential oils were assayed for their antifungal activity, at 15, 20, 25, 30, and 50  μ l/1 ml acetone/15 ml Czapek-Dox medium, against isolates of four woodrotting fungi associated with Casuarina timber, Aspergillus sp., Penicillium sp., Fusarium sp. and Mucor sp. by a method based on inhibition of the fungus growth on agar plates. E. citriodora exhibited the most potent fungicidal activity against the tested four fungi, followed by T. distichum oil. While the C. sempervirens essential oil appeared to have the least significant antifungal property.  相似文献   
9.
Middleton  Beth 《Plant Ecology》2000,146(2):167-181
Following the environmental sieve concept, the setting in which the recruitment of Taxodium distichum occurs in, becomes increasingly restrictive from the seed to seedling stage in an impounded forested wetland. Although a wide elevational band of dispersing seed moves across the boundary of a swamp-field in the water sheet, the zone of germination is relegated to that portion of the forested wetland that draws down during the growing season. Seedling recruitment is further restricted to the uppermost zone of the winter water sheet. These patterns are likely applicable to other species of dominant swamp species, e.g., Cephalanthus occidentalis crossed the boundary of a forested wetland and abandonded field in winter flooding (November–December and November–March, respectively) in Buttonland Swamp. The elevation of the boundary was 101.3 m NGVD. While the seeds of at least 40 swamp species were dispersed across the boundary, few viable seeds were dispersed after the winter season. Kriged maps showed seeds of T. distichum and C. occidentalis dispersed in patches in the water depending on the position of the water sheet. Most species of both water- and gravity-dispersed species had a localized pattern of seed distribution (either spherical or exponential) and this indicated that seeds may not be dispersed for great distances in the swamp. Water-dispersed T. distichum and C. occidentalis had larger dispersal ranges (A 0=225 and 195 m, respectively) than Bidens frondosa and B. discoidea (A 0=14 and 16 m, respectively). Seed dispersal varied with season depending on the availability of seeds. In Buttonland Swamp, viable seeds typically were dispersed for T. distichum in November–June, and for C. occidentalis in November-July. Low water occurred in August 1993 and high in February 1994 (99.8 and 101.6 m NGVD, respectively). The seed banks along the landscape boundary varied in species composition according to elevation (r 2 = 0.996). While the similarity of species richness between water-dispersed seeds and the seed bank at elevations that flooded (during June 1993 through May 1995) was high (10–17%), it was low between water-dispersed seeds and the seed bank at elevations that did not flood (5%). T. distichum seeds had a short germination window in that seeds germinated within a year following their production in zones that were flooded in the winter followed by drawdown during the next growing season. After 1 year, less than 5% of the T. distichum seeds remained viable on the surface of the soil. Germination of T. distichum was confined to specific elevations (above 99.3 but below 101.6 m NGVD) during this study with 4.1% of the seedlings surviving for more than 2 years at a mean of 101.4 m NGVD. All seedlings below this elevation died. To maximize natural regeneration along the boundaries of swamps in abandoned farm fields targeted for restoration, this study suggests a flood pulse regime consisting of high water in the winter to maximize dispersal of live seeds followed by low water in the summer to facilitate seed germination and seedling recruitment. Hydrologic restoration could assist in the natural recovery of damaged wetlands if a seed source exists nearby.  相似文献   
10.
采用SRAP标记方法,分析了原产地及种植地不同的18个墨西哥落羽杉(Taxodium mucronatum Tenore)优良单株的遗传多样性,并根据遗传相似系数、采用UPGMA法对它们的遗传关系进行了聚类分析.结果显示:用7对引物组合从18个单株的总DNA中共扩增出87条带,其中多态性条带71条,多态性条带百分率为81.6%.按照原产地和种植地可将18个单株分为4组,它们的总体Nei's基因多样性指数、Shannon信息指数和基因分化系数分别为0.229、0.355和0.479 9,而基因流仅为0.542,说明各组间的基因交流较少.18个单株间的遗传相似系数为0.632 2~0.919 5,平均值为0.753 9.聚类分析结果显示:18个单株可分为3组,其中18号和14号单株分别单独成组,其余16个单株聚为1组.后者可进一步分为8个亚组:1号、7号、12号和15号单株各自单独成亚组;2号、3号、5号、9号、11号和13号单株聚为1个亚组;4号和6号单株、8号和17号单株、10号和16号单株分别聚为3个亚组.研究结果表明:18个优良单株间存在丰富的遗传变异,但它们的遗传关系与原产地及种植地明显不相关.  相似文献   
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