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1.
To improve the productivity and wood quality of poplar plantations, effects of four planting spacing on canopy characteristics, biomass production and stem roundness in poplar plantations were evaluated over 8 years. Planting spacing influenced canopy characteristics of the plantations, and further affected the understory vegetation and plantation productivity. Understory vegetation biomass and Shannon-Wiener index were negatively correlated with leaf area index, but both diversity indexes and aboveground biomass of understory vegetation were higher in stands with a wider spacing. Tree diameter growth increased with increasing planting spacing, while the increment in plantations of square configurations (5?×?5 m and 6?×?6 m) was higher than those with rectangular configurations (3?×?8 m, 4.5?×?8 m). The highest poplar biomass production was achieved in the plantation with 5?×?5 m spacing at age 8. Moreover, poplar trees showed a tendency with better stem roundness in a square configuration. The results suggest that planting spacing not only affect canopy characteristics, understory vegetation and tree growth but also wood quality, and square configurations (5?×?5 m and 6?×?6 m) could be a better option for poplar plywood timber production at similar sites. 相似文献
2.
Disease prevention, biodiversity, productivity improvement and ecological considerations are all factors that contribute to increasing interest in mixed plantations. The objective of this study was to evaluate early growth and productivity of two hybrid poplar clones, P. balsamifera x trichocarpa (PBT) and P. maximowiczii x balsamifera (PMB), one improved family of Norway spruce (Picea glauca (PA)) and one improved family of white spruce (Picea abies (PG)) growing under different spacings in monocultures and mixed plots. The plantations were established in 2003 in Abitibi-Témiscamingue, Quebec, Canada, in a split plot design with spacing as the whole plot factor (1 × 1 m, 3 × 3 m and 5 × 5 m) and mixture treatments as subplot factor (pure: PBT, PMB, PA and PG, and 1:1 mixture PBT:PA, PBT:PG, PMB:PA and PMB:PG). Results showed a beneficial effect of the hybrid poplar-spruce mixture on diameter growth for hybrid poplar clones, but not for the 5 × 5 m spacing because of the relatively young age of the plantations. Diameter growth of the spruces decreased in mixed plantings in the 1 × 1 m, while their height growth increased, resulting in similar aboveground biomass per tree across treatments. Because of the large size differences between spruces and poplars, aboveground biomass in the mixed plantings was generally less than that in pure poplar plots. Leaf nitrogen concentration for the two spruce families and hybrid poplar clone PMB was greater in mixed plots than in monocultures, while leaf nitrogen concentration of clone PBT was similar among mixture treatments. Because of its faster growth rate and greater soil resources demands, clone PMB was the only one showing an increase in leaf N with increased spacing between trees. Fine roots density was greater for both hybrid poplars than spruces. The vertical distribution of fine roots was insensitive to mixture treatment. 相似文献
3.
Athina A. Pappa Nikolaos E. Tzamtzis Sofia E. Koufopoulou 《Annals of Forest Science》2008,65(2):210-210
The application of Long Term fire Retardants (LTRs) for forest fire prevention and/or suppression purposes can result in chemicals leaching, from soil to the drainage water, during the annual rain fall period. In leachates, large concentrations of nitrogen (N), one of the major components of LTRs, could affect the groundwater quality. N leaching due to the application of a nitrogen phosphate based LTR was studied in laboratory microcosms. The concentrations of nitrate (NO 3 ? -N) and ammonium nitrogen (NH 4 + -N) were measured in the resulting leachates from pots with forest soil and pine seedlings (Pinus halepensis) alone and in combination with fire. Up to 30% of the total N in the retardant was lost to leaching, primarily as NO 3 ? -N. The vegetation seems to decrease to some extent the N leaching. The N leaching from treated pots with a burnt tree is lower compared with that from treated pots with a living tree, due to the partial N volatilization during the fire. Although this is a laboratory study, these results may be considered as rough indications of LTR environmental implications, due to the leaching of a significant part of the retardant’s N into groundwater. 相似文献
4.
M. Browaldh 《Agroforestry Systems》1995,30(3):301-313
During 1992 and 1993, nitrogen dynamics and microbial activity were investigated in an agrisilvicultural system consisting of oats or barley cyltivated along the sides of a poplar plantation in Sweden. At each of three experimental sites (two silt loams and one silty clay loam), sampling for mineral nitrogen was carried out in three layers down to 90 cm at two distances from the trees, A (0.5–1.5 m) and B (4.0–5.0 m), two times each year (spring and autumn). Sampling of soil for organic amtter, carbon and nitrogen, potential nitrification, N ineralization, basic respiration and substrate-induced respiration was carried out in the 0–10 cm layer at three distances from the trees: A (0.5–1.5 m), B (2.5–3.5 m) and C (4.0–5.0 m).Significantly larger amounts of organic matter, total carbon and nitrogen at A than at B and C, indicated increased inputs from the trees through litter, decaying roots and root exudates. This could explain that the rates of nitrogen mineralization, potential nitrification and respiration were significantly higher at A than at B and C. The presence of trees resulted in a better utilization of nitrogen and moisture in the soil, reducing the potential for nitrate leaching and accumulating nitrogen close to the trees. The higher concentration of ammonium, lower concentration of nitrate and the consistently lower NO
3
–
–N/NH
4
+
–N-ratios observed at A than at C might be explained by a combined effect of increased nitrogen mineralization and efficient nitrate uptake by the trees. 相似文献
5.
Forest plantations in the northeastern United States comprise a small proportion of the total forest area. Most plantations are typically softwood dominated and managed for sawlog and pulpwood production, while high-yield hardwood plantations for bioenergy feedstocks have not been as widely investigated. The objective of this study was to compare the biomass production of planted white spruce (Picea glauca (Moench) Voss) and hybrid poplar (Populus spp.) plantations (four clones) in monoculture, and in mixture of the two on a typical reforestation site in Maine. Three years following planting, hybrid poplar height and ground line diameter growth rates began to diverge among clones, and by 6?years, the Populus nigra?×?Populus maximowiczii (NM6) clone clearly outperformed three Populus deltoides?×?Populus nigra clones (D51, DN10 and DN70) both in pure stands and in mixtures with white spruce. In mixture, we found the yield of white spruce to decline as the yield of hybrid poplar increased. Overall, yields of white spruce monocultures were comparable to those reported in eastern Canada, while the hybrid poplar biomass yields were substantially lower than those reported from studies on abandoned agricultural lands, likely due to the harsher soil conditions at our site. The dominance of rocky and poorly drained sites (like the one tested in this study) across Maine will likely limit the feasibility of widespread hybrid poplar plantations, and thus constrains their potential use as a bioenergy feedstock. 相似文献
6.
Kristina Seftigen Filip Moldan Hans W. Linderholm 《European Journal of Forest Research》2013,132(1):83-92
The growth patterns of annually resolved tree rings are good indicators of local environmental changes, making dendrochronology a valuable tool in air pollution research. In the present study, tree-ring analysis was used to assess the effects of 16 years (1991–2007) of chronic nitrogen (N) deposition, and 10 years (1991–2001) of reduced nitrogen input, on the radial growth of Norway spruce (Picea abies (L.) Karst.) and Scots pine (Pinus sylvestris L.) growing in the experimental area of Lake Gårdsjön, southwest Sweden. In addition to the ambient input of c. 15 kg N ha?1 year?1, dissolved NH4NO3 was experimentally added to a 0.52-ha watershed at a rate of c. 40 kg ha?1 year?1. Atmospheric N depositions were reduced by means of a below-canopy plastic roof, which covered a 0.63-ha catchment adjacent to the fertilized site. The paired design of the experiment allowed tree growth in the N-treated sites to be compared with the growth at a reference plot receiving ambient N deposition. Nitrogen fertilization had a negative impact on pine growth, while no changes were observed in spruce. Similarly, the reduction in N and other acidifying compounds resulted in a tendency towards improved radial growth of pine, but it did not significantly affect the spruce growth. These results suggest that spruce is less susceptible to changes in the acidification and N status of the forest ecosystem than pine, at least in the Gårdsjön area. 相似文献
7.
Lin Chen Chunsheng Wang Bernard Dell Zhigang Zhao Junjie Guo Daping Xu Jie Zeng 《林业研究》2018,29(1):111-119
Betula alnoides is a fast-growing hardwood species grown in large plantations in Southeast Asia and South China. Nitrogen requirements for producing robust seedlings, growth and nutrient dynamics were investigated using exponential fertilization treatments. Root collar diameter, height, dry mass and nutrient contents of seedlings increased exponentially in all fertilization treatments as time progressed. Moreover, with water soluble fertilizer (Plant Products plus microelements N–P2O5–K2O: 20–20–20), 300 mg N seedling?1 was adequate. Vector analysis revealed that P was the most responsive nutrient element, followed by N and K. Dilutions of N and K were evident in the plants without N addition, which induced initial P sufficiency and then luxury consumption probably due to the antagonistic interaction between N and P. However, deficiencies of N, P and K were mostly observed in all exponential regimes during the experiment because seedling growth rate exceeded nutrient uptake rate, inferring that further study on improving the nutrient uptake efficiency is needed. Analysis of relationships among nutrient supply, dry mass, N content and N concentration demonstrated that 100–400 mg N seedling?1 induced sufficiency to luxury consumption of nitrogen without significant change in dry mass, and 400 mg N seedling?1 is recommended to apply for nutrient loading of seedlings before outplanting. The findings will help improve seedling quality and enhance the production of robust seedlings for plantation forestry of this species. 相似文献
8.
Several studies have shown the positive effect of nitrogen fertilization on conifer growth. In young Norway spruce (Picea abies) stands, an additional effect of including a mixture of other nutrients has often, but not always, been found. We studied effects of repeated fertilization in 28 stands with young Norway spruce in central Norway. The treatments consisted of plots without nutrient addition (Control), fertilization with 150?kg?N?ha?1 (150?N), and fertilization with 150?kg?N plus addition of P, K, Mg, B, Mn and Cu (150?N?+?mix), repeated three times with approximately eight years interval. There was a clear positive effect on volume increment of the 150?N and 150?N?+?mix treatments compared to Control, and the effect was significantly higher for 150?N?+?mix than for 150?N. Fertilization had a stronger effect in the first fertilization period than in the second, while the third period was intermediate. The effect of 150?N?+?mix was strongest at plots?>?300?m a.s.l. However, this correlation may be due to geological conditions rather than elevation. Further studies are needed to find out under which edaphic conditions a nutrient mixture will increase growth substantially in young spruce stands. 相似文献
9.
Nitrogen (N) is usually the most limiting nutrient in degraded agricultural soils and affects the growth and ecological function
of poplar (Populus spp.) plantations. We hypothesized that application of organic mulch would improve soil nitrogen availability and increase
tree growth, while the quality of mulching materials would alter the supply of essential nutrients. In this study, poplar
plantations were established in 2004 and two experiments were established in the field. The fresh above-ground biomass of
cogongrass (Imperata cylindrica (L.) P. Beauv.), oak (Quercus fabri Hance), Chinese coriaria (Coriaria nepalensis Wallich) and brackenfern (Pteridium aquilinum (L.) Kuhn. var. latiusculum (Desv.) Underw. ex Heller) in the current year was selected as mulching materials, and mulches were annually applied at the
rate of 5.0 kg/m2 in the N mineralization experiment and 20,000 kg/ha in growth and nutrient availability experiment. Additions of fresh biomass
significantly improved annual net N-mineralization estimates and the mulching treatments increased the cumulative N mineralized
over the incubation period by 22–30%. However, a significant difference in the cumulative N mineralized was not observed among
the mulched treatments, even if the cumulative N mineralized in the treatment mulched with oak (QF) was 5.9, 3.3 and 2.2%
greater than that of treatments with brackenfern (PA), Chinese coriaria (CN) and cogongrass (IC), respectively. Application
of fresh biomass mulch markedly affected soil available N contents and growth performance of poplar plantations. The mulching
treatments with QF, IC, PA and CN increased annual means of available N concentration by 39.0, 29.0, 29.6 and 39.7% respectively.
At the end of the fifth growing season, the average height of poplar plantations in treatments mulched with QF, IC, PA and
CN was 46.8, 14.9, 42.6 and 57.4% greater than that in Check (CK-no mulch), while mean DBH increased by 35.4, 12.5, 33.3 and
52.1%, respectively. Overall, the productivity was enhanced in mulched plots at the end of the third growing season. Compared
with CK, the treatments mulched with QF, IC, PA and CN increased total biomass by 97.4, 96.4, 63.1 and 81.6%, respectively.
Based on the results of this study, annual application of 20,000 kg/ha fresh woody biomass would be recommended for soil improvement
in young poplar plantations growing on a degraded agricultural soil. 相似文献
10.
The effects of woody residues from Eucalyptus globulus Labill. plantations on N losses were assessed through a lysimetric experiment. Treatments were: (NW) forest floor litter and non-woody residues (leaves, bark, twigs) incorporated into the soil; (IP) as NW plus woody residues (branches) cut in 20-cm long pieces and incorporated into the soil; (IC) as IP, but with branches chopped into chips; (SP) non-woody and woody residues (pieces) placed on the soil surface; (SC) as SP plus branches chopped into chips; and (CT) absence of organic residues. Leaching of N-NO 3 ? and N-NH 4 + was followed during a six-year period and N mineralization was evaluated at the end of the experiment. Non-woody residues enhanced N leaching as compared with the control. Conversely, woody residues decreased N losses. Although differences between treatments were not significant at the end of the experiment, incorporation and fragmentation of woody residues resulted in the more favourable management option regarding the reduction of N leaching observed at short-term. As high amounts of residues were used, the effect observed on decrease N leaching could be higher than that existing in Portuguese eucalypt plantations. 相似文献
11.
Uffe Jørgensen Janni Thuesen Jørgen Eriksen Klaus Horsted John E. Hermansen Kristian Kristensen Anne Grete Kongsted 《Agroforestry Systems》2018,92(4):987-999
Free-range pig production is typically associated with high risks of nitrogen (N) leaching due to the pigs excretory behaviour creating nitrogen ‘hotspots’ and rooting behaviour destroying the grass sward. This challenge is reinforced at high animal densities causing high nitrogen deposition. A combined production of pigs and perennial energy crops was hypothesized to benefit the environment because crops like miscanthus (Miscanthus), willow (Salix) and poplar (Populus) may persist despite pig rooting, take up nutrients and thereby minimise N-losses. Thus, the aim was to assess the risk of nitrate leaching by investigating the distribution of soil mineral N as influenced by stocking density in a system with zones of perennial energy crops and grass. For each of two seasons 36 growing pigs with an initial mean live weight of 55 kg (spring) and 48 kg (autumn), respectively, were separated into 6 paddocks of two stocking densities (117 and 367 m2 pig?1), respectively. Soil mineral N was measured in 0–25 and 25–75 cm depth at three occasions. N balances showed that N inputs exceeded N outputs by 626 and 185 kg N ha?1 for high and low stocking density. The pigs caused an uneven distribution of mineral N across the paddocks with highest contents in zones with willow & poplar. Stocking density had a significant effect on soil mineral N. Immediately after the second batch of pigs, average mineral N in the 0–75 cm soil layer was on average 227 and 83 kg N ha?1 at high and low stocking density, respectively. During winter period with no pigs, soil mineral N content in the 0–75 cm soil layer was reduced by almost 100 kg N ha?1 in paddocks with high stocking density against only 4 kg in paddocks with low stocking density. It is concluded that risk of elevated nitrate leaching compared to other cropping systems was low at the low stocking density, which therefore represents a promising pathway for a combined production of energy crops and free-range pigs. 相似文献
12.
对安徽省马鞍山市长江滩地8年生的Ⅰ-72、Ⅰ-69和中林46计3种杨树无性系混交林进行了调查。结果表明,中林46杨的胸径、树高和材积生长量均明显小于Ⅰ-72杨和Ⅰ-69杨。8年生的中林46杨平均材积只有0.199m3/株,Ⅰ-72杨和Ⅰ-69杨的平均材积分别是0.499 m3/株和0.360 m3/株。Ⅰ-72杨的胸径明显大于Ⅰ-69杨,但树高差异很小。就以上3种杨树无性系而言,中林46杨不宜在长江滩地上进行造林;Ⅰ-72杨和Ⅰ-69杨较适宜,尤其是在大株行距造林中,采用Ⅰ-72杨则更容易培育大径材。 相似文献
13.
The response of hybrid poplar plantations established on former agricultural land in Saskatchewan to competition from weeds
on a range of site productivities was studied. The short-term impact of competition control on the growth of juvenile trees
and how tree responses to competition control differed across the productivity gradient was of particular interest, as was
the determination of which resource was most highly competed for and was most important in determining tree growth. Eight
sets of paired plots in juvenile hybrid poplar plantations were established in central Saskatchewan across a range of site
productivities. In each pair, one plot had complete weed control (weed-free) while in the other plot weeds were allowed to
grow. The best soil predictor of tree growth was soil texture, represented by a combination of the percentage silt and clay,
with finer textures showing better growth. Competition control significantly increased tree growth on all sites with the benefit
being greatest on the higher productivity sites. Soil water appeared to be highly competed for between trees and weeds and
was a dominant resource controlling growth. For soil nutrients, nitrogen and phosphorous were highly competed for between
trees and weeds. However, leaf phosphorous concentration of the weed-free plots had a strong positive relation to tree growth
while nitrogen did not, indicating that when trees are free of competition they can access sufficient nitrogen from these
soils. 相似文献
14.
Mitsuhisa Baba Shintaro Abe Makiko Kasai Toshihiro Sugiura Hiroshi Kobayashi 《Journal of Forest Research》2011,16(6):446-455
Understory vegetation may affect nitrate (NO3
−) leaching, even in coniferous forests. Our objective was to estimate the contribution of understory vegetation to nutrient
cycling, especially nitrogen, in a Japanese cedar (Cryptomeria japonica) stand. We therefore cut down and removed understory vegetation in one plot of the stand (the cutting plot) to compare nutrient
budgets in the cutting plot with those in a control plot in which understory vegetation was allowed to grow. We also examined
neutralization of the acid produced due to an increase in NO3
− leaching. A monitoring study on precipitation and soil-percolated water was carried out in both plots. When the understory
vegetation was cut down, NO3
− flux at a soil depth of 10 cm increased remarkably in summer, with values significantly higher than those in the control
plot. This resulted in an increase in proton load associated with N transformation ([H+]load). The increase in [H+]load enhanced mobilization of Ca2+, Mg2+, and SiO2 ([SiO2]mob). In addition, the correlations between [SiO2]mob and mobilization of each base cation were distinct in the cutting plot. These results indicated that the acids produced
because of N transformation were buffered not only by ion exchange but also by chemical weathering. The contribution of understory
vegetation to minimizing NO3
− leaching suggested that understory vegetation might reduce the risk of N saturation because of chronic atmospheric N inputs. 相似文献
15.
16.
《Scandinavian Journal of Forest Research》2012,27(4):321-327
In order to find a nitrogen fertilization regime that is economically feasible in commercial short‐rotation forest stands of basket willow (Salix viminalis L.), a field trial was established on a clay soil near Västerås, central Sweden, in early 1990. A response surface design was used in which three levels of treatment were chosen for each single year: year 1—0, 30, 60, kg N ha?1; year 2—0, 60, 120, kg N ha?1; year 3—0, 90, 180, kg N ha?1; year 4—0, 60, 120, kg N ha?1. Thirty‐two combinations of these levels, out of 81 possible, were chosen and divided into four blocks. Thus, eight unique treatments were randomized to the plots within each block, providing no replicates at the end of the experimental period. This gave us a more flexible and informative experiment than many of those used earlier with rather few treatments, although they were replicated. After 4 years the willow stand was harvested and the accumulated stem production of each treatment was assessed. The effect of nitrogen fertilization on accumulated stem growth over the experimental period was found to be significant only for nitrogen applied in years 2 and 3, with a somewhat (statistically significant) larger effect in year 2. Growth response to nitrogen fertilization was best approximated with a function including terms with applied amount of nitrogen in years 2 and 3 and, furthermore, a term of interaction with negative coefficient between these years. The interaction between these years was interpreted as the system's ability to recycle nitrogen from one year to another. 相似文献
17.
18.
Mélanie Bergeron Simon Lacombe Robert L. Bradley Joann Whalen A. Cogliastro Marie-France Jutras Paul Arp 《Agroforestry Systems》2011,83(3):321-330
Tree-based intercropping (TBI) systems, combining agricultural alley crops with rows of hardwood trees, are largely absent
in Canada. We tested the hypothesis that the roots of 5–8 years old hybrid poplars, growing in two TBI systems in southern
Québec, would play a “safety-net” role of capturing nutrients leaching below the rooting zone of alley crops. TBI research
plots at each site were trenched to a depth of 1 m on each side of an alley. Control plots were left with tree roots intact.
In each treatment at each site, leachate at 70 cm soil depth was repeatedly sampled over two growing seasons using porous
cup tension lysimeters, and analyzed for nutrient concentrations. Daily water percolation rates were estimated with the forest
hydrology model ForHyM. Average nutrient concentrations for all days between consecutive sampling dates were multiplied by
water percolation rates, yielding daily nutrient leaching loss estimates for each sampling step. We estimated that tree roots
in the TBI system established on clay loam soil decreased subsoil NO3
− leaching by 227 kg N ha−1 and 30 kg N ha−1 over two consecutive years, and decreased dissolved organic N (DON) leaching by 156 kg N ha−1 year−1 in the second year of the study. NH4
+ leaching losses at the same site were higher when roots were present, but were 1–2 orders of magnitude lower than NO3
− or DON leaching. At the sandy textured site, the safety net role of poplar roots with respect to N leaching was not as effective,
perhaps because N leaching rates exceeded root N uptake by a wider margin than at the clay loam site. At the sandy textured
site, significant and substantial reductions of sodium leaching were observed where tree roots were present. At both sites,
tree roots reduced DON concentrations and the ratio of DON to inorganic N, perhaps by promoting microbial acquisition of DON
through rhizodeposition. This study demonstrated a potential safety-net role by poplar roots in 5–8 year-old TBI systems in
cold temperate regions. 相似文献
19.
水肥耦合对杨树根区水、氮运移及吸收的影响研究进展 总被引:1,自引:1,他引:0
随着我国木材需求量不断增加,速生丰产林提质增产迫在眉睫,急需探求合理高效的水肥集约经营策略。文中对灌溉施肥条件下植物根区水和氮(N)运移分布、吸收根形态与分布,以及水和N吸收相关研究进行综述,结论如下:1)水、N分布与施肥灌水量、土壤质地、降水、地下水位等条件有关。主要研究方法有室内、大田试验以及数值模拟法。由不同时刻水、N运移分布情况发现,改善水肥耦合措施,可降低N淋失对地下水的污染,同时提高植物的水、N利用效率。2)杨树吸收根主要分布于土壤表层,呈“倒金字塔”型分布,随远离树干方向,分布趋于浅层化,垂直根呈“S”形,整体表现为“二态性”;从根系分布规律发现,少量多次随水施肥有利于吸收根及林分生长。3)杨树品种、生育阶段、施肥水平以及土壤条件等不同,其水、N吸收情况及后期分配均存在差异。但恰当的水肥比例和灌施频率均有利于水、N吸收。以往研究只关注根区水和N运移、根系分布、吸收利用过程中的某一环节,而对各环节间动态联系以及整体调控机制知之甚少。因此,应设置不同水、N耦合方式,对各环节进行关联分析,明确调控机制,以期实现水、N效率最大化,有效提升林木产量。 相似文献
20.
以长江中游芦苇滩地为研究对象,利用微生物分离培养计数方法和PCR-DGGE技术重点研究了人工杨树林对芦苇滩地土壤细菌种群的影响。结果表明:与芦苇地相比,人工杨树林根际土、根表土和0-10cm土层中的氮、速效磷和总有机碳的含量都明显降低;人工杨树林下根际土中的微生物数量都比芦苇地的低,而其根表土中则是细菌、真菌数量低于芦苇地,放线具比芦苇地高;就4种功能细菌来说,人工杨树林根际土的纤维素菌、反硝化菌、硝化细菌和氨氧化细菌的数量则比芦苇地低,而根表土中除了氨氧化细菌外,其他3种功能细菌含量又比芦苇地的高。4种功能细菌数量在不同的土壤剖面中的分布也各不相同:在0-10cm土层中,人工杨树林的纤维素菌和氨氧化细菌的数量高于芦苇地,而其余2种功能茵则低于芦苇地;在10-25cm土层中,人工杨树林的纤维素菌和硝化细菌含量低于芦苇地,反硝化菌的含量却高于芦苇地,而氨氧化菌含量相同;在25-60cm土层中,除了纤维素菌,其他3种功能细菌含量都是人工杨树林低于芦苇地。通过系统进化树分析发现,滩地中普遍存在的细菌类群为α变形菌纲、β变形茵纲和硝化螺旋菌纲,而人工杨树林和芦苇地的根表土、根际土和0-10cm土层均存在各自专有的细菌种群,表明人工杨树林对芦苇滩地土壤中细菌种群产生了一定的影响。 相似文献