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41.
In the absence of fire in black spruce-feathermoss stands, a thick forest floor layer dominated by bryophytes and sphagnum
accumulates. This layer is associated with wet, cool and nutrient-poor soil conditions conducive to the paludification process
and pushing the ecosystem towards an unproductive open black spruce forest. The presence of Populus tremuloides in theses stands may halt this process because this species has a high nutrient cycling rate and a litter that represses
moss cover. The main hypothesis of this study is that, despite similar abiotic conditions (slope and drainage), the presence
of Populus tremuloides in a stand dominated by Picea mariana affects surface soil nutrient availability, total N, pH as well as the decomposition process. The abundance of Populus tremuloides trees was associated with higher exchangeable cations, cationic exchangeable capacity and pH of the forest floor layer on
all sites. A decrease in organic matter thickness with increasing aspen presence was also found on all sites, suggesting that
this species affects the decomposition process by the quality of its litter as well as by a general improvement of soil physical
and chemical properties. The decomposition rate of a standard substrate as well as in vitro potential net nitrogen mineralization were positively related to Populus tremuloides on only one of the three sites, and non-significant on the other sites. Strong immobilization of added nitrogen during incubation
was observed on all sites and was not related to aspen, which suggested that in these stands, the soil microbial community
is uniformly and strongly nitrogen limited. The zone of influence of Populus tremuloides was evaluated in areas around the soil sampling plot ranging from 3 to 7 m. The results revealed that this zone varies with
soil properties. The results suggest that the presence of Populus tremuloides accelerate nutrient cycling, which could affect stand productivity to some extent. 相似文献
42.
Depletion of macro-nutrients from rhizosphere soil solution by juvenile corn,cottonwood, and switchgrass plants 总被引:7,自引:0,他引:7
In situ sampling of rhizosphere solution chemistry is an important step in improving our understanding of soil solution nutrient
dynamics. Improved understanding will enhance our ability to model nutrient dynamics and on a broader scale, to develop effective
buffers to minimize nutrient movement to surface waters. However, only limited attention has been focused on the spatial heterogeneity
and temporal dynamics of rhizosphere solution, and still less is known about how rhizosphere solution chemistry varies among
plant species. Nutrients in rhizosphere soil solution and changes in root morphology of juvenile corn (Zea mays L. cv. Stine 2250), cottonwood (Populus deltoids L.), and switchgrass (Panicum virgatum L.) were monitored using mini-rhizotron technology. Plants were grown for 10 days in a fine-silty, mixed, superactive, mesic
Cumulic Hapludoll (Kennebec series). Micro-samples (100–200 μL) of rhizosphere and bulk soil solution were collected at 24-h
intervals at a tension of −100 kPa and analyzed for P, K, Ca, and Mg concentration using Capillary Electrophoresis techniques.
Plants were harvested at the end of the 10-day period, and tissue digests analyzed for nutrient content by Inductively Coupled
Plasma Spectroscopy. Corn plants produced roots that were 1.3 times longer than those of cottonwood, and 11.7 times longer
than those of switchgrass. Similar trends were observed in number of root tips and root surface area. At the end of 10 days,
rhizosphere solution P and K concentrations in the immediate vicinity of the roots (<1 mm) decreased by approximating 24 and
8% for corn, and 15 and 5% for cottonwood. A rhizosphere effect was not found for switchgrass. After correction for initial
plant nutrient content, corn shoot P, K, and Mg were respectively 385, 132, and 163% higher than cottonwood and 66, 37, and
10% higher than switchgrass. Cottonwood shoot Ca concentration, however, was 68 to 133% higher than that of corn or switchgrass.
There was no difference in root P concentration among the three species. Nutrient accumulation efficiency (μg nutrient mm−1 root length) of cottonwood was 26 to 242% higher for P, 25 to 325% higher for Ca, and 41 to 253% higher for Mg than those
of corn and switchgrass. However, K accumulation efficiency of corn was four to five times higher than that of the cottonwood
and switchgrass. Nutrient utilization efficiency (mg of dry weight produced per mg nutrient uptake) of P, K, and Mg was higher
in cottonwood than in corn and switchgrass. These differences are element-specific and depend on root production and morphology
as well as plant nutrient status. From a practical perspective, the results of this study indicate that potentially significant
differences in rhizosphere solution chemistry can develop quickly. Results also indicate that cottonwood would be an effective
species to slow the loss of nutrients in buffer settings.
An erratum to this article can be found at 相似文献
43.
干旱胁迫对杨树光合生理指标的影响 总被引:28,自引:1,他引:28
采用PEG模拟干旱胁迫的方法,利用气体交换法和叶绿素荧光技术,研究了干旱胁迫下小青杨(Populus pseudo-simonii)的光合生理变化.结果表明,干旱胁迫初期,小青杨的净光合速率(Pn)、蒸腾速率(Tr)、气孔导度(gs)和胞间CO2浓度(Ci)值均随干旱胁迫增强而下降,杨树Pn的下降主要是由于gs下降引起的;干旱胁迫后期,Ci值逐渐升高,非气孔限制成为光合作用的主要限制因子.干旱胁迫后期,PSⅡ原初光能转化效率(Fv/Fm)和PSⅡ潜在活性(Fv/Fo)明显下降,光抑制增强,光合电子传递受阻.POD酶的活性在胁迫初期升高,后期降低,说明干旱胁迫初期对保护系统酶活性升高有诱导作用,随着胁迫时间的延长,Fv/Fm和Fv/Fo降低,活性氧清除酶活性下降,活性氧代谢的平衡被打破,导致光合器官的伤害.由此表明,干旱胁迫后期Pn的降低与PSⅡ荧光参数及POD酶活性下降有关. 相似文献
44.
Giorcelli A Sparvoli F Mattivi F Tava A Balestrazzi A Vrhovsek U Calligari P Bollini R Confalonieri M 《Transgenic research》2004,13(3):203-214
When present, stilbene synthase leads to the production of resveratrol compounds, which are major components of the phytoalexin response against fungal pathogens of the plant and are highly bioactive substances of pharmaceutical interest. White poplar (Populus alba L.) was transformed with a construct containing a cDNA insert encoding stilbene synthase from grapevine (Vitis vinifera L.), under the control of the cauliflower mosaic virus (CaMV) 35S promoter, and a chimeric kanamycin resistance gene. Southern blot hybridization analysis demonstrated the presence and integration of exogenous DNA sequences in the poplar genome. Expression of the stilbene synthase-encoding gene in different transgenic lines was confirmed by Western blot and Northern analyses. Compared to the controls, in the transgenic plants two new compounds were detected and were identified as the trans- and cis-isomers of resveratrol-3-glucoside (piceid) by high-pressure liquid chromatography (HPLC), UV spectrophotometry, electrospray mass spectrometry (HPLC-ESI-MS) and enzymatic hydrolysis. Since poplar is a good biomass producer and piceids are accumulated in substantial amounts (up to 615.2 microg/g leaf fresh weight), the transgenic plants represent a potential alternative source for the production of these compounds with high pharmacological value. Despite the presence of piceid, in our experimental conditions no increased resistance against the pathogen Melampsora pulcherrima, which causes rust disease, was observed when in vitro bioassays were performed. 相似文献
45.
A. Ciurli L. Lenzi A. Alpi A. Pardossi 《International journal of phytoremediation》2014,16(7-8):804-823
A work undertaken by pot and field experiments to assess the suitability of poplars and ferns for the in-situ, phytoextraction, of a dumping site with residues from the roasting process of arseno-pyrite is reported. The main characteristic of this site is the high content of both the As metalloid and heavy metals (e.g., Al, Fe, Cu, Co, Cr, Pb). Two poplar clones (Populus deltoides ‘Dvina’ and Populus x canadensis ‘Orion’) and Pteris vittata (Chinese brake fern) were planted in the contaminated soil both ex situ in pots and in situ. Plant survival, As accumulation in plant tissues, leaf content of pigments, soluble proteins, activity of catalase and SH-groups in both roots and leaves were evaluated during a 24-month study period. Both poplar and fern plants exhibited an increase in the activity of catalase and SH group contents when grown in the presence of pyrite ashes. The results showed that the co-planting system (arsenic-hyperaccumulator fern Pteris vittata and Populus clones) was suitable for phytoextraction of multi-contaminated dumping sites. Agronomic measures such as irrigation, soil tillage and amendments also seem to be necessary for the successful establishment of poplar trees and ferns in contaminated soils in order to enhance plant growth through the improvement of soil conditions. 相似文献
46.
Modular gene expression in Poplar: a multilayer network approach 总被引:1,自引:0,他引:1
47.
Junghans U Langenfeld-Heyser R Polle A Teichmann T 《Plant biology (Stuttgart, Germany)》2004,6(1):22-29
The influence of the auxin transport inhibitors naphthylphthalamic acid (NPA) and methyl-2-chloro-9-hydroxyflurene-9-carboxylate (CF), as well as the gaseous hormone ethylene on cambial differentiation of poplar was determined. NPA treatment induced clustering of vessels and increased vessel length. CF caused a synchronized differentiation of cambial cells into either vessel elements or fibres. The vessels in CF-treated wood were significantly smaller and fibre area was increased compared with controls. Under the influence of ethylene, the cambium produced more parenchyma, shorter fibres and shorter vessels than in controls. Since poplar is the model tree for molecular biology of wood formation, the modulation of the cambial differentiation of poplar towards specific cell types opens an avenue to study genes important for the development of vessels or fibres. 相似文献
48.
K. E. MOCK C. A. ROWE M. B. HOOTEN J. DEWOODY V. D. HIPKINS 《Molecular ecology》2008,17(22):4827-4844
Clonality is a common phenomenon in plants, allowing genets to persist asexually for much longer periods of time than ramets. The relative frequency of sexual vs. asexual reproduction determines long‐term dominance and persistence of clonal plants at the landscape scale. One of the most familiar and valued clonal plants in North America is aspen (Populus tremuloides). Previous researchers have suggested that aspen in xeric landscapes of the intermountain west represent genets of great chronological age, maintained via clonal expansion in the near absence of sexual reproduction. We synthesized microsatellite data from 1371 ramets in two large sampling grids in Utah. We found a surprisingly large number of distinct genets, some covering large spatial areas, but most represented by only one to a few individual ramets at a sampling scale of 50 m. In general, multi‐ramet genets were spatially cohesive, although some genets appear to be fragmented remnants of much larger clones. We conclude that recent sexual reproduction in these landscapes is a stronger contributor to standing genetic variation at the population level than the accumulation of somatic mutations, and that even some of the spatially large clones may not be as ancient as previously supposed. Further, a striking majority of the largest genets in both study areas had three alleles at one or more loci, suggesting triploidy or aneuploidy. These genets tended to be spatially clustered but not closely related. Together, these findings substantially advance our understanding of clonal dynamics in western North American aspen, and set the stage for a broad range of future studies. 相似文献
49.
利用荧光原位杂交技术对杨属(Populus)植物五个组中二倍体(2n=2x=38)代表种:毛白杨(P.tomentosa)、箭杆杨(P.nigravar.thevestina)、大叶杨(P.lasiocarpa)、小青杨(P.pseudo-simonii)、胡杨(P.euphratica);以及所发现的白杨组和黑杨组天然三倍体(2n=3x=57):毛白杨(P.tomentosa)、武黑1号(P.euramericana cv.Wuhei-1)进行了25S rDNA的染色体定位。二倍体毛白杨、箭杆杨、小青杨和大叶杨都具有4个25S rDNA位点,而胡杨只有2个较大的25S rDNA定位于1对小的染色体上,白杨和黑杨天然三倍体的两个种各有6个25S rDNA位点。同时作者还将杨属植物25S rDNA的分布变化与常规核型分析结果进行了比较。 相似文献
50.
Ülo Niinemets 《Trees - Structure and Function》1998,12(7):446-451
Foliar inclination angles, petiole morphology and dry matter partitioning between assimilative and support biomass were studied
in shade-intolerant Populus tremula L. and shade-tolerant Tilia cordata Mill. along a natural light gradient across the canopy. The leaves of sub-canopy species T. cordata were on average exposed to lower irradiances, and they were also more horizontal with greater blade inclination angles (ϕB, defined as the angle between the leaf fall-line and the horizon; ϕB was positive for the leaves inclined upwards, and negative for the leaves inclined downwards) than those in P. tremula. Seasonal average daily integrated quantum flux density (Q
int, mol m–2 day–1) and ϕB were not related in T. cordata, and only a weak negative effect of Q
int on ϕB was detected in P. tremula. Nevertheless, when both species were pooled, there was a strong negative relationship between Q
int and ϕB, implying that the leaves became progressively vertical with increasing height in the canopy. Interspecific differences in
foliage inclination were mainly related to petiole morphology, in particular to petiole length, rather than to contrasting
biomass investment patterns between assimilative and support tissues within the leaf. It was suggested that more horizontal
leaves, resulting from the species-specific structure of petioles, partly explain the superior performance of shade-tolerant
T. cordata in the understory and the sub-canopy.
Received: 13 November 1997 / Accepted: 6 March 1998 相似文献