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耐荫性是植物在低光环境下的生存和生长能力,对森林植物群落演替起重要作用,植物对遮荫的适应机制已成为生态学的研究热点.本文综述了森林植物的耐荫性及其在形态和生理方面的适应性,分析了森林植物在生长性状、生物量分配、树冠结构、叶片形态生理、叶片解剖结构、光合参数、碳水化合物分配、水分和养分的利用等方面对遮荫产生的可塑性响应,最后对目前研究存在的问题进行了分析,展望了未来的研究内容和方向. 相似文献
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Bernard W. Sweeney Amanda Dunbar Charles L. Dow Melinda D. Daniels 《Restoration Ecology》2019,27(6):1220-1230
Recent studies suggest very low survival of seedlings planted in streamside areas containing thick (>1 m) deposits of legacy alluvial sediments. We planted 2,450 seedlings representing eight species in a streamside area with thick legacy sediments and monitored them for 5 years. The overall survival of approximately 60% (range across species: approximately 38–74%) was surprisingly high and mean overall growth per seedling (approximately 3.27 m) was very good, ranging between 2.5 and 4.7 m depending on tree species. Although both seedling survival and growth exhibited significant spatial variation, none of the results supports the idea that legacy sediment thickness up to 1.5 m is an important factor with regard to success of streamside reforestation. For survival, soil depth was significant for the sediment accretion zone but not the legacy sediment zone. For growth, the response was significant and positive, with the eight species on average growing significantly better as legacy sediment increased in thickness. The results suggest that the presence of legacy sediment up to 1.5 m thick should not preclude the successful restoration of natural forest along stream channels in the eastern Piedmont of North America. Finally, the study suggests that the U.S. federal criteria for reforestation success (i.e. 222 stems per hectare after 5 years) can still be met on legacy sediment sites by increasing the planting density approximately 25% from the required minimum of 296 stems per hectare to 370. 相似文献
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Weihua Huang Qingbo Chen Ying Zhu Fenghong Hu Lingang Zhang Zhaoxue Ma Zuhua He Jirong Huang 《植物生理与分子生物学学报》2013,(5):1673-1691
In higher plants, photosystem II (PSII) is a large pigment-protein supramolecular complex composed of the PSII core complex and the plant-specific peripheral light-harvesting complexes (LHCil). PSli-LHCII complexes are highly dynamic in their quantity and macro-organization to various environmental conditions. In this study, we reported a critical factor, the Arabidopsis Thylakoid Formation 1 (THF1) protein, which controls PSII-LHCII dynamics during dark- induced senescence and light acclimation. Loss-of-function mutations in THF1 lead to a stay-green phenotype in path- ogen-infected and senescent leaves. Both LHCII and PSll core subunits are retained in dark-induced senescent leaves of thfl, indicative of the presence of PSII-LHCII complexes. Blue native (BN)-polyacrylamide gel electrophoresis (PAGE) and immunoblot analysis showed that, in dark- and high-light-treated thfl leaves, a type of PSII-LHCII megacomplex is selec- tively retained while the stability of PSII-LHCII supercomplexes significantly decreased, suggesting a dual role of THF1 in dynamics of PSII-LHCII complexes. We showed further that THF1 interacts with Lhcb proteins in a pH-dependent manner and that the stay-green phenotype of thfl relies on the presence of LHCII complexes. Taken together, the data suggest that THF1 is required for dynamics of PSII-LHCII supramolecular organization in higher plants. 相似文献
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王青;丁易;臧润国 《陆地生态系统与保护学报》2022,2(6):97-105
对海南热带次生林的恢复而言,人工补植是促进森林快速恢复的主要手段之一。分析白榄(Canarium album )、油楠(Sindora glabra)、麻楝(Chukrasia tabularis)和坡垒(Hopea hainanensis)4种生态功能关键树种在不同处理样地下连续5年的补植保存率与生长量,以期为热带雨林生态功能关键树种的恢复和保护提供科学依据。
在海南热带雨林国家公园霸王岭林区设置60块固定样地,于2017年补植4种生态功能关键树种共9360株。基于生态功能关键树种在抚育/不抚育样地连续5年的存活和生长(实际高度、高度绝对生长量、高度相对生长量)监测数据,使用多重比较分析和混合效应模型分析补植保存率及生长量的差异。
总体而言,抚育样地的幼苗保存率和生长量均高于不抚育样地。抚育样地幼苗第5年保存率高达88.29%,未抚育样地幼苗保存率则为77.77%。抚育样地的幼苗保存率在补植4年后趋于平稳,而不抚育样地仍有下降趋势。抚育和未抚育的幼苗5年高度绝对生长量分别为25.80 cm和6.39 cm。多重比较结果显示:不同处理下幼苗的保存率和高度绝对生长量在补植第2年开始出现差异,相对生长量在补植第4年开始出现差异,且随着时间的推移差异增大。不同树种之间的保存率和生长量也存在差异。补植第2年后绝对生长量为:白榄>油楠>麻楝>坡垒; 补植第4年后相对生长量为:白榄>麻楝>油楠>坡垒。油楠保存率最高(88%),其次为坡垒(87.5%)和麻楝(86%),白榄保存率最低(67%)。混合效应模型结果表明:抚育措施能够显著提高白榄及麻楝的个体生长,而抚育措施对坡垒、油楠的个体生长量没有显著作用。
抚育措施能显著提高总体保存率和生长量,尤其是对于前期快速生长的白榄及麻楝。在补植白榄和麻楝前必须先进行抚育处理;而较为耐荫的坡垒和油楠在速生期前(7~8年)进行抚育或能促进生长。
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光强对烟草幼苗形态和生理指标的影响 总被引:7,自引:0,他引:7
通过白纱布遮荫模拟不同光生境条件(透光率分别为100%、68.2%、35.4%和16.7%),研究了光强因子对烟草幼苗形态和生理指标的影响.结果表明:随相对光强的减弱,幼苗高度增加,茎粗、干鲜比、叶片厚度和单位叶面积质量均呈降低趋势,幼苗干物质积累减少,但其对叶数的影响不大.弱光条件下,叶片自由水、叶绿素、总氮和蛋白质含量增加,束缚水含量降低,叶绿素a/b值减小,转化酶活性降低;烟草幼苗根系相对不发达,根冠比和根生物量减小,根系活力降低.表明弱光条件不利于培育烟草壮苗,生产中应尽可能改善苗床的光照条件. 相似文献
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Cristina Y. Vidal Rafaela P. Naves Ricardo A. G. Viani Ricardo R. Rodrigues 《Restoration Ecology》2020,28(2):427-434
Brazil has committed to fulfilling international restoration goals and to enforcing environmental legislation that will require private landowners to undertake ecological restoration of 21 million hectares of degraded and deforested landscapes. To support a broad range of restoration practices, a well‐established supply chain capable of representing regional plant diversity is essential. This study investigated the restoration species pool in native plant nurseries in São Paulo state, located in southeastern Brazil, and evaluated their geographic distribution, similarity of their plant stocks, and the proportion of species represented from regional floras. Despite a lack of technical assistance and a significant presence of nonnative species (126 species, average 7.5 species/nursery), we found an impressive native species richness in plant nurseries (561 species, average 86.4 species/nursery) from both the Atlantic Forest and Cerrado domains, representing 38–44% of regional floras. There was a huge bias toward tree and shrub species (96.6%) and an absence or underrepresentation of other growth forms, as well as of savanna specialists, animal‐dispersed, and threatened species. The dissimilarity of species observed among the different nurseries surveyed highlights their role in representing regional diversity, which reflects their regional seed collection practices. Effective assistance and training are essential to address issues related to misidentification of species, underrepresentation of most functional plant groups, and the presence of nonnative species, as well as to support the supply chain, which is currently undergoing a market downturn. 相似文献
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In this article we report the results of an experiment introducing 17 native shrub and tree species into a Brazilian restinga (i.e., coastal sandy plain vegetation). Restingas have been affected by human impact for about 8,000 years, and human occupation for housing, tourism, and land speculation has recently increased in such a way that there is a need for conservation of remnant patches and restoration of degraded areas throughout the coast to protect biodiversity. Our study site is a remnant located in Rio de Janeiro, the second largest city in the country, and has been subjected in the past to deforestation, man‐made fire, and sand extraction. Although trees and shrubs predominantly compose natural restinga vegetation, local vegetation after impact was replaced by an exotic grass cover, which meant a drastic reduction in species richness. Thus, in this experiment we removed the grass cover, introduced shrub and tree species, and monitored survival and growth of 20 plants per species for 2 years. Despite the adversities imposed by the nutrient‐poor sandy soil, 70% of the species showed high survival percentage and considerable growth. This report on restoration initiatives in the restingas points out the viability of shrub and tree plantation following exotic grass removal as a strategy to restore Brazilian coastal vegetation. 相似文献
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Increasing the biodiversity of Leucaena leucocephala (hereafter leucaena) stands without losing the benefits provided by the forest structure is a challenge for adaptive management. Here, we report the survival and growth (height, stem, and canopy diameter) of five Atlantic Forest tree species planted underneath a pure stand of the exotic leucaena, which was broadcast sown 35 years before in a 0.6 ha area. Two treatments were compared: thinning (cutting all leucaena trees in 4-m wide rows, where seedlings were planted) and control (seedlings planted under leucaena canopy), with four replicates each (20 seedlings per plot, four per species, 2-m spaced). The five species selected were long-lived emergent trees from seasonal forests, with broad canopy, evergreen, and shade-tolerant. These traits were expected to allow their survival and growth, and, later on, to shade out the leucaena trees. Seven years after planting, survival was high for all species (around 80%), not differing between treatments or species. On average, stem diameter, height, and crown diameter were, respectively, 69, 44, and 36% higher in thinned than in control plots. Response to thinning differed between species in growth, with Gallesia integrifolia and Luehea divaricata standing out. Our results demonstrate that the species used for enrichment planting, selected by their suitable functional traits, can successfully survive under leucaena stands. Reducing competition by thinning, however, is crucial to enhance their growth. Despite the benefits from thinning, enrichment success strongly depends, therefore, on the abilities of the species selected to face the ecological filters acting on the target ecosystem. 相似文献
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Mazer SJ 《Trends in ecology & evolution》1998,13(12):517-473
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Ana P. Moreira da Silva Daniella Schweizer Henrique Rodrigues Marques Ana M. Cordeiro Teixeira Thaiane V. M. Nascente dos Santos Regina H. R. Sambuichi Carolina G. Badari Ulysse Gaudare Pedro H. S. Brancalion 《Restoration Ecology》2017,25(4):509-515
Recent global commitments have placed forest and landscape restoration at the forefront of countries' efforts to recover ecosystem services, conserve biodiversity, and mitigate the effects of climate change. However, it needs to be asked if current native tree seedling supply meets an increase in demand for forest restoration? This study assessed the current configuration, distribution, and production capacity of forest nurseries producing native trees in Brazil. Brazil provides an interesting example of how global agreements aligned with national policies can lead to the proliferation of native seedling nurseries, and the challenges faced to restore species‐rich native forest ecosystems. We found that the nurseries in the Atlantic Forest region can still meet an increase in demand—both in terms of seedling quantity and diversity—because most of their production capacity is not currently used. However, not all Brazilian biomes have sufficient nurseries to meet restoration demands, thus there is a risk of using native species from a few biogeographical regions in a much spatially wider and ecologically diverse area. In addition, lack of seed supply and qualified labor can hamper the growth of the market. Barriers to seed supply may also lead to low levels of genetic variability and floristic representation in the populations and ecosystems to be restored. We conclude that restoration of high‐diversity forest ecosystems requires policies and supportive programs, with emphasis on private nurseries, to guarantee adequate supply of native tree seedlings and provide the necessary incentives to develop the emergent economy of forest restoration. 相似文献
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The reestablishment of riparian forest is often viewed as “best management practice” for restoring stream ecosystems to a quasi‐natural state and preventing non‐point source contaminants from entering them. We experimentally assessed seedling survivorship and growth of Quercus palustris (pin oak), Q. rubra (red oak), Q. alba (white oak), Betula nigra (river birch), and Acer rubrum (red maple) in response to root‐stock type (bare root vs. containerized), herbivore protection (tree shelters), and weed control (herbicide, mowing, tree mats) over a 4‐year period at two riparian sites near the Chester River in Maryland, U.S.A. We started with tree‐stocking densities of 988/ha (400/ac) in the experimental plots and considered 50% survivorship (i.e., a density of 494/ha [200/ac] at crown closure) to be an “acceptable or minimum” target for riparian restoration. Results after four growing seasons show no significant difference in survivorship and growth between bare‐root and containerized seedlings when averaged across all species and treatments. Overall survivorship and growth was significantly higher for sheltered versus unsheltered seedlings (49% and 77.6 cm vs. 12.1% and 3.6 cm, respectively) when averaged across all species and weed control treatments. Each of the five test species exhibited significantly higher 4‐year growth with shelter protection when averaged across all other treatments, and all species but river birch had significantly higher survivorship in shelters during the period. Seedlings protected from weeds by herbicide exhibited significantly higher survivorship and growth than seedlings in all other weed‐control treatments when averaged across all species and shelter treatments. The highest 4‐year levels of survivorship/growth, when averaged across all species, was associated with seedlings protected by shelters and herbicide (88.8%/125.7cm) and by shelters and weed mats (57.5%/73.5 cm). Thus, only plots where seedlings were assisted by a combination of tree shelters and either herbicide or tree mats exhibited an “acceptable or minimum” rate of survivorship (i.e.,>50%) for riparian forest restoration in the region. Moreover, the combined growth and survivorship data suggest that crown closure over most small streams in need of restoration in the region can be achieved most rapidly (i.e., 15 years or less) by protecting seedlings with tree shelters and controlling competing vegetation with herbicides. 相似文献
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Pedro H. S. Brancalion Ricardo A. G. Viani James Aronson Ricardo R. Rodrigues André G. Nave 《Restoration Ecology》2012,20(6):704-711
High‐diversity reforestation can help jumpstart tropical forest restoration, but obtaining viable seedlings is a major constraint: if nurseries do not offer them, it is hard to plant all the species one would like. From 2007 to 2009, we investigated five different seed acquisition strategies employed by a well‐established tree nursery in southeastern Brazil, namely (1) in‐house seed harvesters; (2) hiring a professional harvester; (3) amateur seed harvesters; or (4) a seed production cooperative, as well as (5) participating in a seed exchange program. In addition, we evaluated two strategies not dependent on seeds: harvesting seedlings from native tree species found regenerating under Eucalyptus plantations, and in a native forest remnant. A total of 344 native tree and shrub species were collected as seeds or seedlings, including 2,465 seed lots. Among these, a subset of 120 species was obtained through seed harvesting in each year. Overall, combining several strategies for obtaining planting stocks was an effective way to increase species richness, representation of some functional groups (dispersal syndromes, planting group, and shade tolerance), and genetic diversity of seedlings produced in forest tree nurseries. Such outcomes are greatly desirable to support high‐diversity reforestation as part of tropical forest restoration. In addition, community‐based seed harvesting strategies fostered greater socioeconomic integration of traditional communities in restoration projects and programs, which is an important bottleneck for the advance of ecological restoration, especially in developing countries. Finally, we discuss some of the limitations of the various strategies for obtaining planting stocks and the way forward for their improvement. 相似文献
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研究了中国东北小兴安岭地区阔叶红松林的更新和红松的生长及其影响因素。研究结果表明由于成树树冠的遮蔽作用所导致的光照减少是制约幼树生长和存活的关键因素。阔叶红松林是该区最典型和稳定的植被类型,但是在过去的50a中,由于皆伐和更新不良导致了它的分布面积和蓄积量的减少。阔叶红松林是地带性“顶极”植被,并通过具有连续性年龄结构的树种有规律的替代和演替过程中不同阔叶树种组成而处于优势地位。这种林型无疑应作为一种重要的基因库加以保护。次生阔叶林是在阔叶红松林受干扰后出现的,但它的种类组成简单,而且结构也很不稳定。因此,必须对现有的林分结构加以调整以利于林分的长期稳定和高产。同时,提出了红松阔叶林的恢复和重建的经营方式。 相似文献
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Tree growth and soil acidification in response to 30 years of experimental nitrogen loading on boreal forest 总被引:23,自引:0,他引:23
PETER HÖGBERG HOUBAO FAN † MAUD QUIST ‡ DAN BINKLEY§ CARL OLOF TAMM¶ 《Global Change Biology》2006,12(3):489-499
Relations among nitrogen load, soil acidification and forest growth have been evaluated based on short‐term (<15 years) experiments, or on surveys across gradients of N deposition that may also include variations in edaphic conditions and other pollutants, which confound the interpretation of effects of N per se. We report effects on trees and soils in a uniquely long‐term (30 years) experiment with annual N loading on an un‐polluted boreal forest. Ammonium nitrate was added to replicated (N=3) 0.09 ha plots at two doses, N1 and N2, 34 and 68 kg N ha?1 yr?1, respectively. A third treatment, N3, 108 kg N ha?1 yr?1, was terminated after 20 years, allowing assessment of recovery during 10 years. Tree growth initially responded positively to all N treatments, but the longer term response was highly rate dependent with no gain in N3, a gain of 50 m3 ha?1 stemwood in N2 and a gain of 100 m3 ha?1 stemwood in excess of the control (N0) in N1. High N treatments caused losses of up to 70% of exchangeable base cations (Ca2+, Mg2+, K+) in the mineral soil, along with decreases in pH and increases in exchangeable Al3+. In contrast, the organic mor‐layer (forest floor) in the N‐treated plots had similar amounts per hectare of exchangeable base cations as in the N0 treatment. Magnesium was even higher in the mor of N‐treated plots, providing evidence of up‐lift by the trees from the mineral soil. Tree growth did not correlate with the soil Ca/Al ratio (a suggested predictor of effects of soil acidity on tree growth). A boron deficiency occurred on N‐treated plots, but was corrected at an early stage. Extractable NH4+ and NO3?were high in mor and mineral soils of on‐going N treatments, while NH4+ was elevated in the mor only in N3 plots. Ten years after termination of N addition in the N3 treatment, the pH had increased significantly in the mineral soil; there were also tendencies of higher soil base status and concentrations of base cations in the foliage. Our data suggest the recovery of soil chemical properties, notably pH, may be quicker after removal of the N‐load than predicted. Our long‐term experiment demonstrated the fundamental importance of the rate of N application relative to the total amount of N applied, in particular with regard to tree growth and C sequestration. Hence, experiments adding high doses of N over short periods do not mimic the long‐term effects of N deposition at lower rates. 相似文献
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For three acid soils from Santa Catarina, Brazil, lime application and time of incubation with lime had little effect on the
adsorption of added phosphorus. In two soils with high contents of exchangeable aluminium, solution P and isotopically exchangeable
P were decreased by incubating with lime for 1 month: phosphorus was probably adsorbing on freshly precipitated aluminium
hydrous oxides. In one soil with less exchangeable aluminium, P in solution was increased by liming. After 23 months lime
increased solution and exchangeable P possibly due to crystallization of aluminium hydrous oxides reducing the number of sites
for P adsorption. All these changes were however small.
In a pot experiment, lime and phosphorus markedly increased barley shoot and root dry matter and P uptake. Although liming
reduced P availability measured by solution P, isotopically exchangeable P and resin extractable P, it increased phosphorus
uptake by reducing aluminium toxicity and promoting better root growth. The soil aluminium saturation was reduced by liming,
but the concentration of aluminium in roots changed only slightly. The roots accumulated aluminium without apparently being
damaged. 相似文献