Impact of some ecological factors on the occurrence of poultry soil-inhabiting keratinophiles

Investigations were conducted to assess the ecological factors governing distribution and survival of keratinophilic fungi in poultry farm soils. All the poultry farm soils were rich in humus and the keratinophilic fungi were generally found to be proportional to the soil organic matter. These soils were nearly neutral to weakly alkaline and organically rich with a high content of organic carbon, nitrogen, phosphorus, potassium, magnesium, calcium and iron. This revised version was published online in June 2006 with corrections to the Cover Date.     

苏北沿海不同土地利用方式土壤水溶性有机碳含量特征

土壤水溶性有机碳(WSOC)是土壤碳循环最活跃的组成部分之一。土地利用方式的改变可能显著影响土壤有机碳的组成和结构,进而影响到大气与土壤间的碳交换。本研究以苏北沿海地区农田、杨农复合经营、杨树纯林以及草地等4种不同土地利用方式土壤为研究对象,采用TOC-VCPN总有机碳仪测定了4种不同土地方式下土壤WSOC含量的变化。分析了土壤WSOC与土壤总有机碳(TOC)、易氧化碳(ROC)及理化性质的相关关系。结果表明:WSOC和TOC、土壤全氮(TN)、ROC呈显著正相关,与碳氮比、pH、土壤容重呈显著负相关;WSOC的含量随土层的加深而减少,与总有机碳的变化特征一致,在各个土层,不同土地利用方式WSOC含量差异不显著;农田和草地的WSOC含量在0～10cm土层与10～25cm土层之间差异显著(P<0.05),杨农复合经营的WSOC含量在10～25cm土层与25～40cm土层之间差异显著(P<0.05),其他3种类型差异不显著。     

三江平原典型小叶章湿地土壤硝化反硝化作用与氧化亚氮排放

应用C₂H₂抑制原状土柱培育法研究了三江平原典型小叶章湿地土壤N₂O排放速率及反硝化速率的变化,分析了它们与环境因子的关系,并估算了N₂O排放量及反硝化损失量.结果表明：草甸沼泽土和腐殖质沼泽土N₂O排放速率的变化基本一致,其范围分别为0.020～0.089 kg N·hm^-2·d^-1和0.012～0.033 kg N·hm^-2·d^-1,前者的N₂O排放速率均明显高于后者(平均为1.79±1.07倍),且其差异达到显著水平(P＜0.05);二者反硝化速率的变化并不一致,其范围分别为0.024～0.127 kg N·hm^-2·d^-1和0.021～0.043 kg N·hm^-2·d^-1,前者的反硝化速率一般也要高于后者(平均为1.67±1.56倍),但其差异并未达到显著水平(P＞0.05);硝化作用在前者N₂O排放和氮素损失过程中发挥了重要作用,而反硝化作用则是导致后者N₂O排放和氮素损失的重要过程;氮素物质基础不是影响二者硝化-反硝化作用的重要因素;温度对前者硝化 反硝化作用的影响比后者更为明显,其反硝化速率与5、10和15 cm地温均呈显著正相关(P＜0.05);二者所处湿地水分条件的差异是导致其N₂O排放速率及反硝化速率差异的重要原因.生长季内,前者的N₂O排放量和反硝化损失量分别为5.216 kg N·hm^-2和6.166 kg N·hm^-2,而后者分别为3.196 kg N·hm^-2和4.407 kg N·hm^-2;在二者的反硝化产物中,N₂O/N₂的比率最高,分别为5.49和3.76,表明N₂在后者反硝化产物中所占的比例明显高于前者,说明季节积水条件会导致N₂O/N₂比例降低.     

The ratio of fungi and bacteria in the biomass of different types of soil determined by selective inhibition

Tundra, chernozem (virgin and arable), sod-podzolic (coniferous forest, meadow, and arable), and grey forest (larch forest) soils were used to separate the contributions of fungi and bacteria to substrate-induced respiration (SIR) with the help of antibiotics. For soils with a high content of organic matter (tundra and chernozem: 12 and 8%, respectively), the procedure of selective inhibition of SIR has been optimized. The optimized procedure includes the application of high concentrations of streptomycin (50-120 mg/g of soil) and cycloheximide (50-80 mg/g of soil) and decreasing the weight of the analyzed soil sample. Soils under study have shown the predominant contribution of fungi (63-82%) to the total SIR. The fungal-bacterial ratio in the soils of natural ecosystems (0-5 cm, without litter) was 4.32, 2.19, 1.5, and 1.5 for tundra soil, virgin chernozem, coniferous (sod-podzolic soil), and larch (grey forest soil) forests, respectively. The lower layers of sod-podzolic (5-10 cm) and grey forest (48-58 cm) soils showed a decrease in the fungal and increase in the bacterial component in the total SIR.     

西藏高原退化土壤的生物学肥力及其变化特征

通过3年田间定位试验,对施肥条件下退化山地灌丛草原土生物学肥力的变化进行了研究.结果表明,不施肥状态下的耕层土壤有机质含量较试前呈微弱下降,施肥条件下土壤生物学肥力呈现出相对一致的特征,表现在耕层土壤有机质相对较高的积累速率、腐殖质结构明显改善以及土壤细菌的显著增殖等方面,但土壤微生物区系仍处于极不协调状态;随着有机肥或化肥的递增,0～30和30～60 cm土层有机质含量均有显著提高的趋势,其年均累积量分别达1.35和0.67 g·kg^-1;0～30和30～60 cm土层腐殖质碳占有机碳比重、胡敏酸碳占腐殖质碳比重亦均随有机肥或化肥递增而趋于提高;不同培肥方式对土壤细菌的繁殖与活动均具有极为显著的促进作用,2～30和30～60 cm土层细菌数量与有机质含量分别呈极显著和显著正相关（r＝0.7194、0.6042）,对土壤真菌、放线菌的影响则不甚明显;多数施肥处理下,不同土层固氮菌、纤维素分解菌数量低于不施肥处理,耕层土壤固氮菌与纤维素分解菌数量呈负相关（r=-0.4799）     

The ratio of fungi and bacteria in the biomass of different types of soil determined by selective inhibition

Tundra, chernozem (virgin and arable), soddy-podzolic (coniferous forest, meadow, and arable), and grey forest (larch forest) soils were used to separate the contributions of fungi and bacteria to substrate-induced respiration (SIR) with the help of antibiotics. For soils with a high content of organic matter (tundra and chernozem: 12 and 8%, respectively), the procedure of selective inhibition of SIR has been optimized. This procedure consists in application of high concentrations of streptomycin (50–120 mg/g of soil) and cycloheximide (50–80 mg/g of soil) and decreasing the weight of the analyzed soil sample. Soils under study have shown the predominant contribution of fungi (63–82%) to the total SIR. The fungal-bacterial ratio in the soils of natural ecosystems (0–5 cm, without litter) was 4.3, 2.2, 1.5, and 1.5 for tundra soil, virgin chernozem, coniferous (soddy-podzolic soil), and larch (grey forest soil) forests, respectively. The lower layers of soddy-podzolic (5–10 cm) and grey forest (48–58 cm) soils showed a decrease in the fungal and increase in the bacterial component in the total SIR.     

跨地带土壤置换实验研究

以温带针阔混交林暗棕壤地带内的白浆土、草甸土、泥炭土为原料,以长白山自然保护区内的寒温带山地棕色针叶林土为置换对象,完成了仿自然原型的土壤合成,进行了跨地带的土壤置换与植被生长实验研究。结果表明:①山地棕色针叶林土的腐殖质层厚度、酸度和速效氮含量为植被生长的限制性因子;②合成土壤理化指标必须以原生土壤限制因子拐点(值)指标为确定依据,作为合成土壤的关键性指标;③在长白山采用泥炭土与草甸土各占1/4,白浆土占1/2进行混合,土层厚度40cm,并使用石灰进行调酸达到中性后,植被恢复效果最好、造价最低。     

退化高寒草原土壤生物学性质的变化

对藏北退化高寒草原的土壤生物学性质研究表明:轻度退化草地2~10cm土层微生物(细菌、真菌、放线菌)数量与生物量(碳、氮)、土壤酶(纤维素酶、脲酶、碱性磷酸酶)活性和有机质总体上高于正常草地,中度、严重退化草地则均呈显著降低趋势.微生物生物量碳氮比(BC/BN)与土壤全碳、全氮比(TC/TN)呈极显著正相关(r=0.9088,P≤0.01;n=4);与正常草地相比,轻度、中度退化草地BC/TC、BN/TN值均呈上升趋势,而严重退化草地则呈明显下降趋势.土壤微生物生物量与土壤酶活性呈极显著或显著正相关,但二者均与土壤放线菌数量呈不同程度的负相关;2~10cm土层有机质与土壤微生物生物量、土壤酶活性均呈极显著或显著正相关;随草地退化的加剧,2~10cm和11~20cm土层腐殖质碳占土壤有机碳比重,以及胡敏酸碳占土壤腐殖质碳比重均较正常草地明显上升.     

Microbial biomass and growth kinetics of microorganisms in chernozem soils under different land use modes

The carbon content of microbial biomass and the kinetic characteristics of microbial respiration response to substrate addition have been estimated for chernozem soils under different land use: arable lands used for 10, 46, and 76 years, mowed meadow, natural forest, and forest shelter belt. Microbial biomass and the content of microbial carbon in humus (C_mic /C_org) decreased in the following order: soils under forest cenoses—mowed meadow—10-year arable land—46- and 75-year arable land. The amount of microbial carbon in the long-plowed horizon was 40% of its content in the upper horizon of natural forest. Arable soils were characterized by a lower metabolic diversity of microbial community and by the highest portion of microorganisms able to grow directly on glucose introduced into soil. The effects of different scenarios of carbon sequestration in soil on the amounts and activity of microbial biomass are discussed.     

Keratinophilic Fungi Isolated from Soils of Long-Term Fold-Grazed, Degraded Pastures in National Parks of Slovakia

A total of 939 isolates of 11 genera representing 15 species of keratinophilic fungi were isolated and identified from the soils of three long-term fold-grazed pastures in national parks of Slovakia (Pod Ploskou, Strungovy príslop, and Pod Ke?kou) and one non-fold-grazed pasture in sierra Stolicke vrchy (Diel) using the hair-baiting technique. Keratinophilic fungi were present in all soil samples with a prevalence of Trichophyton ajelloi and Paecilomyces lilacinus. These fungi were more abundant in soil from fold-grazed pasture (Strungovy príslop) compared to non-fold-grazed pasture (Diel). The occurrence of the other keratinophilic fungi was substantially lower, likely because of low pH in some soils.     

若尔盖草甸退化对土壤碳、氮和碳稳定同位素的影响

为了解不同退化阶段高寒草甸土壤碳、氮和碳稳定同位素的差异,对若尔盖湿地内沼泽草甸、草原化草甸、退化草甸3个阶段土壤的碳、氮和碳稳定同位素进行了分析.结果表明:若尔盖湿地草甸土壤δ¹³C 值介于-26.21‰～-24.72‰之间,土壤δ¹³C 值随土层加深而增大.土壤δ¹³C 值与有机碳含量对数值呈线性负相关.表层土壤(0～10 cm)δ¹³C值大小顺序为草原化草甸>退化草甸>沼泽草甸,β值大小顺序为草原化草甸>沼泽草甸>退化草甸.沼泽草甸、草原化草甸、退化草甸0～30 cm 土壤碳含量分别为105.32、42.11和31.12 g·kg^-1,氮含量分别为8.74、3.41和2.81 g·kg^-1,C/N分别为11.26、11.23和10.89.随着草甸的退化,土壤碳、氮呈降低趋势,退化草甸C/N值低于沼泽草甸和草原化草甸.随着土层深度加深,碳、氮含量呈现降低趋势.草甸退化导致的土壤δ¹³C 值差异主要发生在表层0～10 cm.3个退化阶段中,退化草甸土壤的β值和C/N最低,表明退化草甸土壤矿化作用较强.     

不同肥力下黑土土壤真菌数量年变化的研究

研究了东北地区不同肥力下黑土土壤在玉米一个生育期内真菌数量的动态变化以及与6种环境因子的关系。结果表明,不同肥力土壤真菌数量全年只有一个高峰值,但高峰出现月份不同;在0～2 0cm和2 0～4 0cm土层内,土壤真菌数量均为正常施肥区高于休闲区。0～2 0cm土层休闲区和正常施肥区的土壤真菌数量与土壤含水量呈正相关,2 0～4 0cm土层中休闲区土壤真菌数量与碱解氮呈正相关;正常施肥区土壤真菌数量与pH值呈正相关。土壤pH值和土壤含水量分别是休闲区0～2 0cm和2 0～4 0cm土层生态系统的主导因素;速效磷和碱解氮分别是正常施肥区0～2 0cm和2 0～4 0cm土层生态系统的主导因素。     

稻田免耕和稻草还田对土壤腐殖质和微生物活性的影响

为了阐明免耕和稻草还田土壤固碳机制,研究了无稻草还田免耕（NT）、无稻草还田常耕（CT）、稻草还田免耕（NTS）和稻草还田常耕（CTS）对水稻不同生育期不同土层（0—5,5—12,12—20cm）土壤腐殖质形态、含量及微生物活性的影响。结果表明,免耕（NT和NTS）处理显著增加0—5 cm土层土壤游离松结态、联结态和稳紧结态腐殖质含量和游离松结态腐殖质占总腐殖质的比例,且免耕对土壤各结合态腐殖质含量的影响程度有随生育期的推后而增加的趋势;5—12cm和12—20cm土层土壤各结合态腐殖质含量和0—20cm各土层微生物活性有减少趋势;在水稻分蘖期免耕对微生物活性影响很弱,在水稻拔节—灌浆期免耕处理显著降低5—12 cm土层土壤微生物活性,相反,免耕却增加水稻成熟期0—5 cm土层的微生物活性;另一方面,稻草还田（CTS和NTS）显著提高土壤各结合态腐殖质含量,尤其是0—5 cm土层、游离松结态腐殖质及水稻生育后期;CTS处理显著增加分蘖期—孕穗期0—20 cm土层的呼吸强度,而稻草还田显著增加孕穗期—成熟期0—5cm土层的纤维素分解强度。可见,通过增加土壤腐殖质含量和各结合态腐殖质含量并改变微生物活性免耕有利于表土层碳的固定作用,而免耕与稻草还田相结合更有利于土壤碳的积累。     

宁南山区植被恢复对土壤团聚体水稳定及有机碳粒径分布的影响

土壤团聚作用和土壤有机碳固定之间密切相关.对宁南山区不同植被恢复措施和年限下土壤团聚体粒径分布及稳定性、土壤团聚体中有机碳及其组分分布进行了研究,探讨了有机碳及其组分对植被恢复的响应.结果表明,不同植被恢复措施下,土壤团聚体粒径分布表现为“V”字分布:＞5 mm和＜0.25 mm这两个粒径的团聚体含量最多,5-2 mm、1-0.25 mm团聚体的含量次之,2-1 mm粒径的团聚体含量最少.坡耕地的平均重量直径(MWD)最低,为1.4,其他植被恢复措施下土壤的平均重量直径MWD在1.9-3.1之间.不同的植被恢复措施下,0-20 cm土层和20-40 cm土层全土有机碳含量在7.4-17.7 g/kg之间、微生物碳含量分布在50.3-664.7 mg/kg之间、腐殖质碳含量在0.9-2.5g/kg之间.胡敏酸碳含量分布在0.2-0.6 g/kg,富里酸碳含量在0.6-1.9 g/kg之间.全土有机碳、微生物碳、腐殖质碳、富里酸碳均为坡耕地最低,其他植被恢复措施的有机碳、微生物碳、腐殖质碳、富里酸碳含量分别是坡耕地的1.1-2.3倍、2.0-8.4倍、1.0-2.0倍、1.2-2.4倍.不同粒径团聚体有机碳相比较,大多呈现中间高两边低的变化趋势,最大值出现在中间粒径,即5-2 mm、2-1 mm、1-0.25 mm这3个粒径.逐步回归表明,5-2 mm团聚体和1-0.25 mm团聚体有机碳含量的提高有助于土壤水稳性团聚体的形成.研究结果表明,植被恢复提高了土壤团聚体有机碳含量,在碳形态上,富里酸碳和微生物生物量碳对不同植被恢复措施的敏感度较高,胡敏酸碳含量则相对稳定.     

豫南黏板土壤分层酸化和耕层速效磷分布特征

黄淮海平原南部以黄褐土和砂姜黑土等为代表的耕地土壤酸化趋势明显.为深入认识该类型黏板土壤垂直剖面上pH值和耕层养分的空间变异情况,以豫南西平县为例,对县域范围内63个耕地样点进行pH值和速效磷测定,运用地统计学方法和ArcGIS技术分析不同深度土壤pH值和耕层土壤(0～20 cm)速效磷的空间分布状况,并分析了pH值与...     

川西北草原土壤及冷暖季牧草微量元素含量比较

改善土壤的理化环境及提高牧草的营养水平必须了解草地土壤及牧草微量元素的分布与含量。试验从川西北草地的亚高山丘原草甸、亚高山平坝草甸和沼泽平坝草甸采集土样和冷暖季草样。土样采集深度范围是0～10cm,10～20cm,20～30cm。应用火焰原子吸收光谱法测定了草样中铜、铁、锰、锌和钴的含量和土样中这些元素的有效态含量,应用氟离子选择电极法测定了土样中的氟离子浓度和草样中的氟含量。土壤pH高低顺序为草甸土>冲积土>泥炭草甸土,pH随土壤深度变深而下降;土壤和牧草的钴含量都处于缺乏状态,分别为0.64mg/kg和0.26mg/kg。牧草铁和锰含量都高于正常水平,铁为414.51～565.06mg/kg,锰为138.68～247.09mg/kg.     

Investigation of keratinophilic fungi from soils in Western Australia a preliminary survey

In order to determine which species of geophilic dermatophytes were present in Western Australian soils 299 samples were investigated. These samples were collected from a range of locations, 208 from towns throughout the state and 91 samples from the Perth Metropolitan area.Most samples were collected from areas frequented by people and animals, such as home gardens, parks and animal yards.Of the total 299 soils, 271 (90.6 %) yielded keratinophilic fungi. A total of 181 dermatophytes were isolated, and there were 205 isolations of other keratinophilic fungi. Microsporum gypseum (30.7 %) was the most prevalent dermatophyte recovered from soil followed byMicrosporum cookei (21.7 %) and thenTrichophyton ajelloi (8.0 %). No other dermatophytes were recovered.Chrysosporium indicum was the most common of all the keratinophilic fungi and was isolated from 50.1 % of the samples. Mixed growth was obtained from 33.5 % of the soil samples.     

一个水青冈生态系统的土壤化学强度的研究

应用扁平溶度计考察了一个水青冈林(Fageta paupera)的重力土壤溶液,该森林位于克里尼奇克     

尕海湿地生态系统土壤有机碳储量和碳密度分布

2011年7月,研究了甘南尕海典型湿地(草本泥炭地、沼泽湿地、高山湿地和亚高山草甸)土壤剖面有机碳分布及其储量.结果表明: 4种典型湿地土壤容重平均在0.22～1.29 g·cm^-3;草本泥炭地土壤有机碳含量明显高于其他类型,其平均值(286.80 g·kg^-1)约为沼泽湿地、高山湿地和亚高山草甸的2.91、4.99和7.13倍.各类湿地土壤平均有机碳密度为草本泥炭地＞亚高山草甸＞沼泽湿地＞高山湿地,以0～10 cm剖面的密度最大;各类湿地土壤剖面的有机碳密度与有机碳含量的变化趋势基本一致,均随土壤深度的增加呈现波动性变化;草本泥炭地、沼泽湿地、高山湿地和亚高山草甸的土壤有机碳均存在0～10和20～40 cm两个明显储碳层;其0～60 cm深度的土壤有机碳储量分别为369.46、278.83、276.16和292.23 t·hm^-2.尕海湿地4种类型湿地0～60 cm土壤的总有机碳储量约为9.50×10⁶ t.     

黄土丘陵沟壑区不同植被恢复格局下土壤微生物群落结构

针对典型黄土丘陵沟壑区陕西延安羊圈沟小流域坡面上单一刺槐林、单一撂荒草地以及林草搭配的草地-林地-草地及林地-草地-林地4种不同植被格局,利用磷脂脂肪酸(phospholipid fatty acid,PLFA)谱图分析法对土壤微生物群落结构进行监测研究,旨在揭示坡面上不同的植被恢复格局对土壤微生物群落结构的影响。研究发现4种不同植被格局下,2种林草搭配的植被格局磷脂脂肪酸的结构比较相似,与单一植被格局相比,表层土壤中表征真菌的特征脂肪酸所占的比例有所提高。主成分分析显示4种植被格局0—10 cm土壤微生物群落结构存在差异,差异主要存在于2种林草搭配的植被格局与2种单一的植被格局之间,其中草地-林地-草地的植被格局与刺槐林和撂荒草地之间土壤微生物群落结构的差异均达到了显著水平。不同微生物菌群的量在4种植被格局土壤间显著性差异主要存在于表层土壤中的细菌菌群和革兰氏阳性菌,革兰氏阴性菌和真菌在4种植被格局土壤之间无显著差异。总之,4种不同植被恢复格局的土壤微生物群落结构存在差异且差异主要存在于表层土壤,坡面上人工林的种植及林草搭配的恢复模式较直接撂荒更有利于提高微生物菌群的生物量。