施用生物炭6年后对稻田土壤酶活性及肥力的影响

利用田间定位试验,研究0(BC₀)、7.5(BC₁)、15(BC₂)和22.5(BC₃)t·hm^-2水稻秸秆生物炭及3.75 t·hm^-2水稻秸秆(STR)一次性施加6年后对稻田土壤肥力及酶活性的影响.结果表明: 施用生物炭6年后土壤有机碳、有效磷和速效钾含量显著增加,增幅分别为34.6%、12.4%和26.2%,土壤pH值和容重显著降低,但对土壤全氮含量无显著影响.土壤脲酶和酸性磷酸酶的活性显著增加,土壤荧光素二乙酸酯酶(FDA水解酶)和芳基硫酸酯酶的活性受到不同程度的抑制,其中,BC₂处理的土壤脲酶活性增加量最大,增幅为36.5%.土壤酸性磷酸酶活性随着生物炭施加量的增加而增加,与土壤速效磷含量呈显著正相关关系;土壤FDA水解酶和脲酶主要与土壤速效钾含量有关;酸性磷酸酶和芳基硫酸酯酶与土壤容重呈显著正相关.施用生物炭6年后土壤脱氢酶和多酚氧化酶活性明显升高,增幅分别为48.8%和27.5%,而过氧化氢酶活性逐渐下降,且显著低于对照BC₀.STR处理显著增加了土壤脲酶、FDA水解酶、脱氢酶、酸性磷酸酶和芳基硫酸酯酶的活性,降低了过氧化氢酶和多酚氧化酶的活性,降幅分别为23.4%和15.9%.     

酸性硫酸盐土中的硫及其形态演变探讨

研究了酸性硫酸盐土中S及其形态演变。结果表明,酸性硫酸盐土S含量高,以无机态为主;S积累和S形态演变与酸性硫酸盐土形成、发育与利用密切相关。与红树林盐渍沼泽土(潜在酸性硫酸盐土)比较,酸性硫酸盐水稻土黄钾铁矾S含量较高,但FeS2含量较低。酸性硫酸盐水稻土S形态剖面分布明显,其氧化层的黄钾铁矾S含量较高,pH值较低;其还原层的FeS2含量较高。防治酸害是酸性硫酸盐土持续利用要解决的关键问题。     

种植转Bt基因水稻对土壤酶活性的影响

转Bt基因及非Bt基因水稻的盆栽试验研究表明,转Bt基因水稻在生长发育过程中可以向土壤中释放杀虫晶体蛋白,而且杀虫晶体蛋白的释放量与水稻生长发育时间有关;与非Bt基因水稻相比,转Bt基因水稻生长15d时,土壤脲酶活性显著下降(降幅为2．47％),土壤酸性磷酸酶活性显著升高(增幅为8．91％),而土壤芳基硫酸酯酶、蔗糖酶和脱氢酶活性的变化差异不显著;生长30d时,土壤脲酶活性仍显著下降(降幅为16．36％),土壤酸性磷酸酶、芳基硫酸酯酶和脱氢酶活性显著升高(增幅分别为35．69％,19．70％和16．83％),而土壤蔗糖酶活性变化差异仍不显著。     

氧化钙对水稻幼苗的生理作用研究

利用几种含钙化合物处理土壤后播种水稻,发现氧化钙具有显著的生理活性,土壤中含量在1．0％时明显增加旱育身水稻幼苗高度,增加根数和加快叶片发育速度,进一步研究发现0．5－1．5％CaO能够降低稻苗细胞电解质渗透率和脂质过氧化过程,增加叶绿素含量和体内可溶性蛋白含量,并能提高POD活性,增强稻苗抗低温能力。     

不同pH低磷土壤上的水稻生物学性状

通过盆栽试验,研究了6个水稻材料（4个耐低磷水稻99011、580、508、99112和2个磷敏感水稻99012、99056）在3种不同pH低磷土壤上的生物学性状．结果表明：580、508和99112的生物学性状在3种土壤上均无明显差异,表现出耐低磷特性;99011在石灰性土壤上的耐低磷能力低于中性和酸性土壤,其相对经济产量比酸性和中性土壤分别降低11．9％和10．4％;99012在石灰性土壤上的耐低磷能力相对较强,其相对经济产量比酸性和中性土壤分别提高19．6％和22．2％;99056在酸性土壤上的耐低磷能力相对较强,其相对经济产量比石灰性和中性土壤分别提高25．0％和19．6％．磷营养水平及土壤类型对水稻产量的影响主要体现在对有效穗的影响上．此外,99011、580、508和99112在3种土壤上的剑叶磷浓度及其相对值均显著高于99012和99056．这也是前四者具有较强耐低磷能力的原因之一．     

基于根际与凋落物际评价转Bt水稻对土壤线虫群落的影响

转基因作物在商业化推广前,有必要评价其对非靶标土壤生物的生态影响。根系和凋落物与土壤的界面是代表植物直接影响土壤的两个典型活性微域,即根际和凋落物际。基于室内盆栽实验构建水稻根际和凋落物际,比较了这两个高活性微域中转Bt水稻克螟稻(KMD)与亲本水稻秀水11(XSD)对土壤可利用资源、微生物学性质和线虫群落的影响。结果表明:转Bt水稻对土壤性质的影响依赖于水稻生育期和微域的变化。与XSD相比,KMD在苗期和拔节期显著提高了凋落物际土壤可溶性有机氮含量(P0.05);在苗期显著降低了凋落物际土壤铵态氮含量,但在成熟期显著提高了凋落物际与交互微域土壤的铵态氮含量(P0.05)。与亲本水稻相比,转Bt水稻分别在苗期和成熟期显著提高了凋落物际土壤微生物生物量碳和活性,而在拔节期和成熟期显著降低了根际土壤微生物生物量氮含量(P0.05)。微域间的交互作用显著影响土壤微生物生物量、可溶性有机碳和氮、线虫总数和各食性线虫的数量(P0.05)。转Bt水稻总体上降低了土壤线虫总数,尤其在苗期和拔节期的凋落物际土壤中达到显著水平。重复测量方差分析表明转Bt水稻显著影响土壤食细菌(P0.01)和食真菌(P0.05)线虫数量,及线虫群落的通道指数和富集指数。水稻收获后KMD秸秆的Bt蛋白含量显著高于亲本,全部KMD处理的土壤样品中Bt蛋白含量无显著变化,因而转Bt水稻对土壤生物学性质的影响可能并非来源于Bt蛋白的作用,而更可能来自于水稻生长性状和凋落物性质的差异。     

赤子爱胜蚓和毛利远盲蚓对添加造纸污泥土壤的化学和生物学特征的影响

将赤子爱胜蚓(Eisenia foetida)和毛利远盲蚓(Amynthas morrisi)接种于混合15%造纸污泥的旱地土和水稻土中,研究不同蚯蚓对不同混合污泥土壤的化学和生物学性状的作用。主成分分析结果显示蚯蚓对混合污泥土壤化学和生物学性质影响与土壤类型和蚯蚓种间差异密切相关(P0.05)。方差分析结果显示:(1)在混合污泥旱地土处理中,与对照相比,E.foetida处理的混合污泥土壤pH和Eh分别显著降低了0.22和13个单位(P0.05),有机碳和微生物量碳含量,以及过氧化氢酶,N-乙酰-氨基葡萄糖苷酶、脲酶和酸性磷酸酶活性分别降低了22.8%、43.8%、12.4%、48.4%、44.0%和40.7%(P0.05),而荧光素二乙酸酯酶活性增加了57.4%(P0.05);A.morrisi处理的混合污泥土壤碱解氮含量、过氧化氢酶、N-乙酰-氨基葡萄糖苷酶和脲酶活性分别明显下降了16.5%,12.4%、33.9%和45.5%(P0.05)。另外,两种蚯蚓相比较,E.foetida活动后混合污泥旱地土壤pH和Eh值、有机碳含量和碳氮比分别比A.morrisi活动后土壤降低0.17和10个单位、24.9%和2.26个单位,而代谢熵和荧光素二乙酸酯酶活性显著增高(P0.05)。(2)在混合污泥水稻土处理中,与对照相比,E.foetida处理的混合土壤有机碳含量和碳氮比显著提高20.9%和1.02个单位(P0.05),全钾含量和呼吸速率明显降低6.11%和33.8%(P0.05);而与对照相比,A.morrisi处理的混合土壤的速效钾含量和过氧化氢酶活性显著提高13.2%和10.8%(P0.05),但β-葡萄糖苷酶和荧光素二乙酸酯酶活性分别下降46.7%和34.4%(P0.05)。两种蚯蚓相比较,E.foetida处理后混合污泥水稻土的有机碳含量比A.morrisi处理显著增加了15.7%,碳氮比增加0.84个单位,速效钾、呼吸速率和过氧化氢酶活性减少11.4%、36.5%和5.51%(P0.05)。综上所述,蚯蚓能显著影响混合造纸污泥土壤的化学和生物学特征。蚯蚓在高有机碳和低粘粒含量旱地土壤中活动,能够加速有机碳的分解和释放,降低与土壤有机质分解和养分转化相关的酶活性和微生物量,但增加微生物总体活性;而蚯蚓在低有机碳和高粘粒含量水稻土壤中活动,则能够有助于土壤有机碳储存,对养分和微生物活性的影响相对较小。与A.morrisi相比较,E.foetida对混合污泥旱地土有机碳的分解和释放、微生物活性的提高,以及混合污泥水稻土有机碳的储存等方面的能力均较强,而对混合污泥水稻土钾素转化能力相对较弱。由于造纸污泥具有高有机碳和低养分含量特征,因此污泥农用仍需考虑按一定比例配施高养分含量有机物料。同时,进一步根据土壤类型和选择适宜的蚯蚓品种进行较长期的小区和大田试验,将能够为污泥农用提供更多科学参考。     

氧化钙对水稻幼苗的生理作用研究

利用几种含钙化合物处理土壤后播种水稻,发现氧化钙具有显著的生理活性,土壤中含量在1.0%时明显增加旱育秧水稻幼苗高度、增加根数和加快叶片发育速度。进一步研究发现0.5～1.5％ CaO能够降低稻苗细胞电解质渗透率和脂质过氧化程度,增加叶绿素含量和体内可溶性蛋白含量,并能提高POD活性,增强稻苗抗低温能力。     

南方红壤地区种植龙须草对土壤质量的影响

通过对10年生龙须草地与自然野生草地和柑橘地3种不同土地利用方式的比较,对土壤的化学性状、物理性状、生物学性状以及植株生长的小气候环境进行了全面的调查分析。结果表明,10年生龙须草地土壤物理性状、化学性状、生物学性状和草地小气候环境都有不同程度的改善。结果还表明,土壤微生物数量在不同的季节呈现出有规律的动态变化,夏季最高,冬季最低,春、秋两季处于中间,而且龙须草地土壤微生物数量的季节性波动不如自然野生草地的波动大;龙须草地四种土壤酶的活性均比自然野生草地的高。从土地持续利用的角度考虑,再加上龙须草自身有着良好的经济效益和水土保持效益,在中国南方红壤地区种植龙须草是一种较好的土地利用模式。     

长期施肥对设施菜田土壤酶活性及土壤理化性状的影响

利用沈阳农业大学蔬菜长期定位施肥试验田,研究了长期施肥对设施菜田土壤酶活性及土壤理化性状的影响.结果表明:长期施用有机肥或有机肥与氮肥配合施用可明显提高土壤有机质和氮、磷、钾养分含量,改善土壤物理性状,增强土壤转化酶、脲酶和中性磷酸酶的活性;而长期单施氮肥造成土壤pH值和土壤酶活性降低.土壤酶活性与土壤养分因子的相关分析表明,转化酶活性与土壤有机质、全磷含量呈显著正相关;脲酶活性与土壤有机质、全磷和速效钾含量呈极显著正相关,与碱解氮和速效磷含量呈显著正相关;中性磷酸酶活性与土壤有机质、全磷和速效钾含量呈显著正相关;脱氢酶活性与土壤各养分因子均无明显相关性.     

Comparison of crop productivity and soil microbial activity among different fertilization patterns in red upland and paddy soils

Soil enzyme activity and microorganism community can be changed through different long-term fertilization patterns. However, the effect of different fertilization practices on soil microorganisms might differ among crop systems. The objective of the study was to reveal the change of soil enzyme activity and soil microorganism community in different fertilizations both in upland and paddy soils. Therefore, based on long-term fertilization experiments in upland soil started in 1986 and adjacent paddy soil experiment commenced in 1981, with both consisting of 4 treatments: Control (no fertilization), N (only nitrogen fertilizer), NPK (nitrogen, phosphate and potassium fertilizers) and NPKM (nitrogen, phosphate and potassium fertilizers plus organic manure), grain yield, soil fertility, activities of soil urease, catalase, acid phosphatase, microorganism community (the number of bacteria, fungus and actinomycete) were analyzed. The result showed that: the highest grain yield was attained under the application of chemical fertilizers plus manure, as compared with Control, NPKM significantly increased the grain yield by 908.63% in corn and 118.80% in rice (p < 0.05). Meanwhile, NPKM treatment increased significantly soil organic matter and nutrient contents in upland and paddy soils. Interestingly, there was no significant difference in soil pH among all the treatments of paddy soil, but in upland, NPKM increased pH in comparison to Control by 23.06% (1.15 units of pH). Compared with Control, soil urease, catalase activities, bacteria and actinomycete numbers of NPKM were increased by 321.39%, 129.64%, 229.79%, 85.81% in upland soil, and 25.11%, 251.12%, 292.83%, 196.34% in paddy soil. However, in paddy soil, the soil acid phosphatase activity of Control, NPK and NPKM treatments were higher than upland soil by 34.87%, 44.81%, 52.73% and 30.11%. Then, the soil fungus and actinomycete numbers of paddy soil were lower than upland soil by 20.20% and 88.29%. Therefore, it indicated that long-term application of chemical and organic fertilizers delivered highest productivity in both experiment but the effect of fertilizer practices differed between land uses.     

红壤丘陵区水田和旱地土壤可溶性有机碳矿化对水分的响应

以亚热带红壤丘陵区典型水田和旱地土壤为研究对象,向土壤中添加¹⁴C标记稻草,培养30 d后,提取与原位土壤中结构相似的¹⁴C可溶性有机碳(DOC);将¹⁴C DOC加入水田和旱地土壤中,并设置45%、60%、75%、90%和105%田间持水量(WHC)5个水分梯度,在标准状态下(25 ℃)培养100 d,监测¹⁴C DOC在土壤中的矿化过程.结果表明: 培养100 d后,两种土壤中28.7%～61.4%的标记DOC被矿化为CO₂,且5个水分条件下,水田土壤DOC的矿化率均显著高于旱地,这主要是由于水田土壤DOC的结构组成比旱地土壤更简单.好气条件(56%～75%WHC)有利于两种土壤DOC的分解,淹水条件(105%WHC)则有利于DOC的积累.土壤处于好气条件(45%～90%WHC)时,DOC的生物可分解率及易分解态所占比例均随着含水量的增加而增加.100 d内,水田和旱地易分解态DOC分别占其累积矿化量的80.5%～91.1%和66.3%～72.4%,说明DOC的生物可分解率主要由其易分解态组分所占比例决定.     

滩涂围垦和土地利用对土壤微生物群落的影响

土壤微生物在生态系统营养物质循环过程,特别是碳、氮循环过程中扮演着重要的角色。上海市崇明岛位于长江入海口,因其土壤发育时间较短、土地利用历史背景清晰、土壤本底均一,不同土壤围垦年代的土壤,代表了土壤发育年代的不同时期。以空间变化代替时间变化,对崇明岛稻田和旱地6个不同围垦年代土壤的磷酸脂肪酸(PLFA)指纹图谱研究表明,湿地滩涂围垦16a后土壤微生物总PLFA、细菌PLFA、革兰氏阳性菌(G+)PLFA和革兰氏阴性菌(G-)PLFA含量显著降低。随着围垦时间的逐步增加,PLFA含量逐步上升。经过长时间的农业种植,G+PLFA在围垦120a和300a稻田和旱地土壤中没有显著性差异;而总PLFA、细菌和G-PLFA在围垦75、120a和300a的土壤中含量趋于稳定且没有显著性差异。围垦16a和40a稻田土壤中总PLFA和G+PLFA显著高于旱地土壤;围垦40a稻田土壤中细菌和G-PLFA显著高于旱地土壤。不同围垦年代土壤总PLFA、细菌PLFA与土壤总氮、粘土含量成显著的正相关关系。河口湿地围垦后微生物数量的变化与土壤营养含量存在强烈相关关系,提示土壤围垦及演替过程中微生物与土壤肥力之间的紧密关系,对探讨土壤演替过程中微生物群落的变化具有重要意义。     

Comprehensive evaluation of multiple cropping systems on upland red soil

According to the principles and methods of ecology and system engineering,we set up an evaluation indicator system for multi-component and multiple crop-ping systems,evaluated the comprehensive benefits of multi-component and multiple cropping systems using grey relation clustering analysis and screened out the opti-mized model based on research done in the upland red soil in Jiangxi Agricultural University from 1984 to 2004.The results show that the grey relation degree of "cabbage/ potato/maize-sesame" was the highest among 23 multi-component and multiple cropping systems and was clustered into the optimized system.This indicates that "cabbage/potato/maize - sesame" can bring the best social,economic and ecological benefits,increase product yield and farmers' income and promote sustainable development of agricultural production.Therefore,it is suitable for promotion on upland red soil.The grey rela-tion degree of "canola/Chinese milk vetch/maize/mung bean/maize" was second,which is suitable for imple-mentation at the city outskirts.In conclusion,these two planting patterns are expected to play important roles in the reconstruction of the planting structure and optimiza-tion of the planting patterns on upland red soil.     

不同水旱轮作体系稻田土壤剖面N2O的分布特征

通过原位采集淹水和排水状态下土壤剖面4个层次的气体,研究氧化亚氮（N₂O）在水旱轮作体系稻田土壤剖面中的动态分布特征.试验设置小麦-单季稻和油菜-双季稻两种轮作体系,包括施N和不施N两种施肥方式.结果表明:施用N肥极显著促进了土壤剖面N₂O的产生（P<0.01）,不同层次间N₂O浓度相关性极显著（P<0.01）,小麦、油菜生长期施N和无N处理下层30 cm和50 cm处N₂O浓度均高于表层7 cm和15 cm处;早稻无N处理则为表层7 cm和15 cm处高于下层30 cm和50 cm处（P<0.05）,其他水稻处理各层次间无显著差异.无N处理土壤N₂O峰值出现在旱作向水稻的转变期,施N处理则出现在旱作第2次追肥后,季节转变期也有较高的N₂O浓度.     

Development of biological soil disinfestations in Japan

Biological soil disinfestations (BSDs) were developed separately in Japan and in The Netherlands as an alternative to chemical fumigations. In Japan, it was developed based on the knowledge of irrigated paddy rice and upland crop rotation system that was rather tolerant of soil-borne disease development. The methods consist of application of easily decomposable organic matter, irrigation, and covering the soil surface with plastic film, thereby inducing anaerobic (reductive) soil conditions and suppressing many soil-borne pests including fungi, bacteria, nematodes, and weeds. The methods are widely used by organic farmers in the area where residences and agricultural fields are intermingled. To note one advantage of these methods, maintenance of soil suppressiveness to Fusarium wilt of tomato was suggested, while soil treated with chloropicrin became conducive to the disease. Suppression of soil-borne fungal pathogens by BSDs might be attributed to anaerobicity and high temperature, organic acids generated, and metal ions released into soil water. Contributions of respective factors to suppression of respective pathogens might be diverse. Presumably, these factors might vary on the fungal community structure in BSD-treated soil. These factors also work in paddy fields. Therefore, the BSDs developed in Japan are probably a method to raise the efficacy of paddy–upland rotation through intensive organic matter application and through maintenance of a strongly anaerobic (reductive) soil condition.     

喀斯特地区不同土地利用方式对土壤有机碳、全氮以及微生物生物量碳和氮的影响

以广西环江大才为代表,选择亚热带典型喀斯特峰林谷地样区,通过对样区土壤进行密集采样和测定分析,研究了土地利用方式对土壤有机碳（O_C）和全氮（TN）含量及土壤微生物生物量碳（B_C）和氮（B_N）含量的影响.结果表明,3种土地利用方式下,土壤有机碳含量在稻田和林地中基本相同,而旱地显著低于稻田和林地.土壤全氮含量为稻田显著高于林地,而林地显著高于旱地.土壤微生物生物量碳含量为稻田显著高于林地,林地显著高于旱地.土壤微生物生物量氮含量在稻田和林地中基本相同,而旱地显著低于稻田和林地.旱地土壤pH值显著低于稻田和林地土壤.3种土地利用方式下,土壤微生物生物量碳与土壤有机碳、土壤微生物生物量氮与全氮含量之间均呈显著的正相关关系.土壤微生物生物量碳和氮含量可以作为评价喀斯特地区土壤质量和肥力的指标之一,对土地利用方式响应较为敏感.     

双季稻田改制对土壤剖面构型及性质的影响

利用田间试验方法,研究了红壤区双季稻田改为稻-稻-紫云英、牧草、水旱轮作和旱作4种种植模式对土壤剖面构型及耕层土壤性质的影响.结果表明: 与试验前相比,旱作种植模式下,耕作层厚度增加了4 cm、犁底层厚度减少了2 cm、湿筛>2 mm粒级团粒含量提高了6.94%、湿筛法平均质量粒径增加了0.37 mm、水稳性结构商是试验前的1.78倍,腐殖酸碳和富里酸碳含量分别提高了0.15和0.49 g·kg^-1;水旱轮作种植模式下,土壤水稳性结构商较高(95.86)、养分含量变幅小;稻-稻-紫云英种植模式下,除有机质含量(增加1.3 g·kg^-1)和土壤水稳性结构商(降低8.82)变化较大外,其余指标变化不大;牧草种植模式下,耕作层厚度增加2 cm、过渡层厚度增加9 cm、土壤水稳性结构商增加1.39,而土壤有机质和全钾含量分别下降5.6和2.8 g·kg^-1,在所有处理中变化幅度最大.表明在当前红壤地区对灌溉条件较差的双季稻田进行改制是可行的,建议优先考虑改成旱作或水旱轮作,但无论在何种耕作方式下,均应注意土壤钾素的亏损问题.     

三江平原草甸白浆土种稻后土壤理化性质变化

土壤质量变化与更新是农业发展和土壤管理的判断准则.白浆土是三江平原主要水田土壤,但旱田改水田后缺乏对其土壤质量变化规律的研究.本研究以不同种稻年限白浆土为调查对象,探讨其土壤理化性质演变特征.结果表明: 白浆土种稻后,耕层(厚16~23 cm)和犁底层(厚6~8 cm)土壤有机碳、还原物质总量增加,耕层深度随种稻年限增加呈逐渐增加趋势,犁底层无明显变化,心土层(厚20 cm)与旱田无显著差异;土壤中Fe²⁺和Mn²⁺有向下迁移现象,但只迁移到犁底层;耕层和犁底层土壤固相比率比种稻前增加,犁底层固相比率由47.8%增加到70.0%,容重由1.22 g·cm^-3增加到1.77 g·cm^-3,土壤孔隙总量降低,微孔隙比例增加,白浆土种稻后有黏粒淋溶淀积现象.白浆土种稻后,土壤物理和化学性质的变化特征与水稻土的演变规律既有一致性,又有其特殊性.     

Comprehensive evaluation of multiple cropping systems on upland red soil

According to the principles and methods of ecology and system engineering, we set up an evaluation indicator system for multi-component and multiple cropping systems, evaluated the comprehensive benefits of multi-component and multiple cropping systems using grey relation clustering analysis and screened out the optimized model based on research done in the upland red soil in Jiangxi Agricultural University from 1984 to 2004. The results show that the grey relation degree of “cabbage/potato/maize — sesame” was the highest among 23 multi-component and multiple cropping systems and was clustered into the optimized system. This indicates that “cabbage/potato/maize — sesame” can bring the best social, economic and ecological benefits, increase product yield and farmers’ income and promote sustainable development of agricultural production. Therefore, it is suitable for promotion on upland red soil. The grey relation degree of “canola/Chinese milk vetch/maize/mung bean/maize” was second, which is suitable for implementation at the city outskirts. In conclusion, these two planting patterns are expected to play important roles in the reconstruction of the planting structure and optimization of the planting patterns on upland red soil. __________ Translated from Acta Ecologica Sinica, 2006, 26(8): 2532–2539 [译自: 生态学报]