Relationships between take-all,soil conduciveness to the disease,populations of fluorescent pseudomonads and nitrogen fertilizers

Take-all of wheat, caused by Gaeumannomyces graminis var tritici (Ggt), is reduced by ammoniacal fertilizers as compared to nitrate sources. This influence of nitrogen on the disease is only observed on nodal roots at flowering. But soil conduciveness to take-all, as measured in a soil bioassay, is modified earlier. Forty days after nitrogen application at early tillering, the NH₄-treated soil became less conducive than the NO₃-treated one. When nitrogen applications are done at sowing and at tillering, differences in disease propagation between the two soils are enhanced. Results from four years of experimentation show that when the level of natural soil inoculum is high, disease severity is reduced by ammonium, showing an effect on the parasitic phase of Ggt. At a low level of natural inoculum the effect of the source of nitrogen is mainly observed on the percent of infected plants, indicating that the saprophytic and preparasitic phases are affected. Rhizospheric bacterial populations increase from sowing to tillering, but differences on take-all conduciveness after tillering are not correlated with differences in the amounts of aerobic bacteria or fluorescent pseudomonads isolated from soils treated with different sources of nitrogen. Qualitative changes in fluorescent Pseudomonas spp. populations, like in vitro antagonism, are more likely to explain differences in soil conduciveness to take-all than are quantitative changes in this group. Nevertheless, the introduction of Ggt in a cropped soil leads to a greater increase in fluorescent pseudomonads populations than in total aerobic bacteria.The delay between reducing soil conduciveness and reducing disease in the field with ammonium nitrogen fertilization, the qualitative change of fluorescent pseudomonads populations and the role of necroses in rhizobacteria multiplication, provide information leading to our representation of a dynamic model based on the differentiation of the wheat root system into seminal and nodal roots.     

Influence of root diameter on the penetration of seminal roots into a compacted subsoil

A field experiment was conducted to evaluate the influence of root diameter on the ability of roots of eight plant species to penetrate a compacted subsoil below a tilled layer. The soil was a fine sandy loam red-brown earth with a soil strength of about 3.0 MPa (at water content of 0.13 kg kg^-1, corresponding to 0.81 plastic limit) at the base of a tilled layer. Relative root diameter (RRD), which was calculated as the ratio of the mean diameters of roots of plants grown in compacted soil to the mean diameters of those from uncompacted soil, was used to compare the sensitivity of roots to thicken under mechanical stress.Diameters of root tips of plants grown in soil with a compacted layer were consistently larger than those from uncompacted soil. Tap-rooted species generally had bigger diameters and RRDs than fibrous-rooted species. A higher proportion of thicker roots penetrated the strong layer at the interface than thinner roots. There were differences between plant species in the extent to which root diameter increased in response to the compaction. The roots which had larger RRD also tended to have higher penetration percentage.The results suggest that the size of a root has a significant influence on its ability to penetrate strong soil layers. It is suggested that this could be related to the effects which root diameter may have on root growth pressure and on the mode of soil deformation during penetration.     

共生条件下三种荒漠灌木的根系分布特征及其对降水的响应

以全根系挖掘法,对共生于原始盐生荒漠生境中的多枝柽柳[Tamarix ramosissima (Ledeb.)]、梭梭[Haloxylon ammodendron(C. A. Mey.)Bunge]、琵琶柴[Reaumuria soongorica (Pall.) Maxim.]的根系分布特征进行了研究;对降水引发的湿润-干旱周期中植物同化枝水势、蒸腾速率的变化过程进行了跟踪观测,并据此计算3种植物的水分胁迫效应指数和土壤-植物系统导水度,以最终确定3种植物用水策略和其对降水的响应特征.研究结果表明,多枝柽柳的吸收根系分布范围从地下50cm到310cm,单株平均总吸收根表面积为30249.2cm2;梭梭的根系分布范围0～250cm,单株平均总吸收根表面积12847.3 cm2;琵琶柴的根系分布范围0～80cm,单株平均总吸收根表面积361.8 cm2.多枝柽柳为深根植物,主要利用地下水和深层土壤水,在降水引发的湿润-干旱周期中,其植物水分生理参数对降水无响应.琵琶柴为浅根植物,对降水响应极为显著.梭梭的根系分布特征介于多枝柽柳和琵琶柴之间,对地下水和降水都有利用,对降水响应显著.3种荒漠灌木对降水的响应差异显然与其根系分布、水分利用策略密切相关,在未来降水发生变化的情景下,根系分布特征的差异将决定着植物在水分资源竞争中的地位.具有较强根系形态可塑性的物种,如梭梭,将具有明显的竞争优势.     

应用土壤质量退化指数计算松嫩盐碱草地土壤营养位

土壤质量退化指数是一种定量评价土壤质量的方法,以某一土壤类型为基准,计算其他土壤类型与基准土壤类型之间各土壤属性的差异,进而反应土壤质量退化或改善的程度.采用1999年的数据应用该方法评价土壤营养状况,计算土壤营养位,分析松嫩盐碱草地植被种群分布格局与土壤营养的关系,从而探讨应用土壤质量退化指数计算土壤营养位的可行性.应用土壤质量退化指数评价土壤营养位得到的结果与主成分分析法的基本一致,并且方法更为简便,更利于土壤营养位分析在生产实践中应用.     

退化红壤不同人工林恢复下土壤节肢动物群落特征

对退化红壤上恢复 1 0 a的 4种人工林 ,即小叶栎 ( Quercuschenii)、木荷 ( Schima superba)、马尾松 ( Pinusmassonina)与木荷 -马尾松的混交林土壤节肢动物群落进行了季节动态调查。结果表明 ,不同林地节肢动物群落的组成和数量发生了明显分异。节肢动物类群数在各季节一般都是小叶栎最高 ,混交林、木荷居中 ,马尾松最低。节肢动物的个体数总体上仍以小叶栎最高 ,但在夏季 ,马尾松林地由于弹尾目数量爆发而使总个体数最高。节肢动物群落存在明显的季节波动 ,一般春季节肢动物类群数和个体数量最高 ,夏季最低 ,夏季高温干旱对节肢动物有强烈的抑制作用 ,而冬季低温对节肢动物的影响不及夏季干热的影响严重。各季节林地节肢动物群落组成皆以螨类为主体 ,占总个体数的 6 0 .2 %～ 91 .7%。弹尾目占总个体数的比例季节变化较大 ,但均以马尾松林地为最高。捕食者数量 (蜈蚣和蜘蛛 )在各季节都是小叶栎显著高于其它林地 ( P<0 .0 5 ) ,混交林与木荷比较接近 ,而马尾松最低。在群落多样性指数中 ,丰富度指数 d和密度 -类群指数DG表达的群落差异明显 ,其在不同林地的大小顺序与类群数趋势基本一致 ,而香农指数 H、均匀度指数 J群落之间基本无差异。聚类分析和鉴别分析将不同林地的节肢动物群落分成 4组 ,小叶     

Effect of concentration and environmental form of tetradecenyl succinic acid on its mineralization in soil

Tetradecenyl succinic acid (TSA) is the major component of a detergent builder (C12-C14 alkenyl succinic acid), which is inherently biodegradable. ¹⁴C-TSA was dosed as a component of sewage sludge into a soil with a history of sludge amendment at final added concentrations of 1.5 and 30 mg (kg soil)^-1. In addition, it was dosed to the soil in an aqueous solution to a final added concentration of 30 mg (kg soil)^-1. Dose and form were found to have a pronouced effect on the mineralization kinetics. When dosed in a realistic form and concentration (i.e. 1.5 mg (kg soil)^-1 as a component of sludge), TSA was mineralized at its highest rate and to its greatest extent, and the mineralization half-life was 2.4 days. When dosed at 30 mg (kg soil)^-1 as a component of sludge, mineralization began immediately, and the half-life was 23 days. In contrast, when dosed at this concentration in aqueous solution, the onset of mineralization was preceded by a 13 day lag period and the mineralization half-life was 69 days. Primary biodegradation and mineralization rates of TSA were very similar. Approximately, half the radioactivity was evolved as ¹⁴CO₂, while the remaining radioactivity became non-extractable, having presumably been incorporated into biomass or natural soil organic matter (humics). This study demonstrated that TSA is effectively removed from sludge-amended soils as a result of biodegradation. Furthermore, it showed the effect that dose form and concentration have on the biodegradation kinetics and the importance of dosing a chemical not only at a relevant concentration but also in the environmental form in which it enters the soil environment.     

Biodiversity of soil biota and plants in abandoned arable fields and grasslands under restoration management

The currently widespread abandoning of agricultural land use in Western Europe offers new opportunities for ecological restoration and nature conservation. This is illustrated for abandoned arable fields and for permanent grasslands cut for hay after the cessation of fertilizer application. Although initiated by a sudden reduction of nutrient input to the system, the changing nutrient supply from the soil is considered to be the main driving force of succession. The soil nutrient supply is affected by soil organisms, both directly (root symbionts and herbivores) and indirectly (nutrient mineralization from dead organic matter). It is argued that because of the close association of changes in species diversity with changes in the functioning of ecosystems, biodiversity has to be studied in an ecosystem ecology context.     

Deep soil heterogeneity and fine root distribution in forests and pastures of eastern Amazonia

Little is known about deep soil heterogeneity, or its relationship with fine root distribution. Beneath a mature, closed-canopy forest of eastern Amazonia, and the pastures and secondary forests that are derived from this forest, soil soft spots and hollow chambers occur to at least 9 meters depth. We measured the vertical distribution of these soil patches, and compared chemical characteristics, mycorrhizal infection, and root density of soil soft spots with the surrounding matrix of more homogeneous soil. Soil soft spots and chambers varied little with depth, but occupied the greatest soil volume (0.8 to 1.2%) from 4 to 6 m depth in the mature forest. Soft spots had lower pH, P availability and arbuscular mycorrhizal infection, and higher K availability than surrounding soil. Root length density was 2 to 15 times higher in soft spots than in surrounding soil. In the pastures, roots were found only in soil soft spots at depths of >3 m. Pastures and secondary forest had more soil chambers in the upper meter of soil than mature forest, but were otherwise indistinguishable in their patterns of deep soil heterogeneity. Soil soft spots may be vestiges of cutter ant nest chambers, while hollow chambers are cutter ant chambers and root channels. Chambers may act as conduits for root penetration and water penetration to deep soil.Abbreviations AM arbuscular mycorrhizae - RLD root length density (root length per unit of soil volume)     

毛乌素沙地杨柴灌木林恢复演替过程中土壤活性有机碳组分变化特征

土壤活性有机碳是土壤有机碳(SOC)的活性部分,是衡量土壤质量和健康状况的重要指标,能够反映植被恢复演替过程中土壤环境的早期变化。但在SOC贫瘠的沙地,长期恢复演替如何影响土壤活性有机碳组分尚不清楚。本研究以毛乌素沙地杨柴人工灌木林为研究对象,分别选取未造林(CK)与造林年限9 a、18 a和30 a的杨柴人工灌木林,探究毛乌素沙地杨柴人工灌木林恢复演替过程中土壤可溶性有机碳(DOC)、微生物量碳(MBC)、易氧化有机碳(ROC)和SOC变化规律。结果表明：(1)毛乌素沙地杨柴灌木林随恢复演替年限增加土壤固碳能力增强,但在恢复演替18 a时出现转折点,恢复演替18—30 a时土壤固碳速率相对减缓;(2)表层0—10 cm土壤DOC、MBC和ROC对恢复演替响应较为敏感,恢复演替过程中表层土壤活性有机碳各组分含量逐渐升高;(3)恢复演替年限并未对土壤活性有机碳占SOC比例产生显著影响,同时也未显著改变碳库活度。综上所述,毛乌素沙地杨柴灌木林恢复演替有助于土壤活性有机碳和SOC积累,但长期恢复演替是否持续对土壤活性有机碳固持产生积极作用仍需进一步研究。     

有机肥替代化学氮肥对橡胶幼苗生长和土壤环境的影响

研究有机肥替代化学氮肥对橡胶幼苗生长和土壤环境的影响对橡胶的培育移植和土壤环境的改善具有重要意义.本研究以热研'7-33-97'品系橡胶幼苗为材料,以等氮(每株幼苗4.63 g全氮)替换的方式设置不施肥(CK)、单施化肥(N)、有机肥替代50％化肥(M+N)、有机肥替代100％化肥(M)4个施肥处理,分析了有机肥替代化...