不同施肥处理对梁平柚产量、品质和土壤肥力的影响

通过连续3 a (2014—2017年)的田间试验,以10 a生梁平柚为研究对象,研究不施肥(CK)、单施化肥(CF)、50%化肥+50%有机肥(CF+OF)和单施有机肥(OF)下梁平柚产量、品质和土壤肥力的影响。结果表明,在不同施肥处理中,CF+OF、OF和CF的单果重均无显著性差异(P>0.05),但CF+OF的柚子单株果实数最高,柚子产量分别高出OF、CF和CK 8.2%、31.2%和11.82%;CF+OF处理中,柚子果实中的果汁含量、总糖、游离氨基酸和维生素C比CK分别提高20.40%、18.95%、64.34%和27.06%,而柚子果皮厚度、种子数和总酸度显著降低,品质改善;施肥显著提高土壤微生物生物量碳氮,在不同施肥处理中,微生物生物量碳氮比介于7.39～13.89,且差异显著(P<0.05)。CF+OF处理中,柚子成熟期土壤可培养细菌、真菌、放线菌数量显著高于或相似于单施化肥,说明化肥和有机肥配施能促进微生物生长繁殖,协调土壤养分供应,改善柚子营养。虽然不同施肥处理对土壤pH无显著影响(P>0.05),但是与CK相比,OF和CF+OF处理有机质和速效钾...     

激光诱导击穿原子光谱在土壤分析中的应用

土壤分析是土壤学研究及应用的前提和基础,传统化学土壤分析方法逐渐不能适应现代土壤学海量信息数据快速获取的需求。激光诱导击穿光谱作为一种全新的、反映土壤组成元素原子信息的光谱技术,其无需对样品进行复杂前处理,可实现原位、快速、多元素连续在线检测,每条光谱记录土壤样本独一无二的特征,可以视为土壤“指纹”,成为现代土壤分析的有效技术之一。首先介绍和分析了激光诱导击穿原子光谱的原理、光谱获取的主要影响因素、光谱数据处理的化学计量学方法等;然后阐述和梳理了基于激光诱导击穿光谱技术在土壤分析方面的应用成果和进展,包括土壤鉴定、土壤养分评估、土壤重金属测定、微观/介观尺度土壤原位表征等;最后讨论和总结了激光诱导击穿光谱技术在土壤分析中所面临的挑战及其应用展望。     

复硝酚钠对低温下黄瓜种子萌发和幼苗耐寒性的影响

为缓解低温胁迫对黄瓜(Cucumis sativus L.)幼苗的伤害,以黄瓜中农106为试验材料,研究不同浓度复硝酚钠(CSN)浸种对低温胁迫下黄瓜种子萌发及萌发后生长的影响,以及CSN灌根处理对黄瓜幼苗壮苗效果及幼苗耐寒性的影响。结果表明,适宜浓度的CSN浸种能显著提高低温胁迫下黄瓜种子的发芽率、发芽势、发芽指数、活力指数、侧根数和鲜重,以50 mg·L^-1浓度效果最佳。在黄瓜育苗过程中,100 mg·L^-1的CSN灌根处理能显著提高穴盘苗质量和壮苗指数,低温胁迫下CSN通过促进矿质元素吸收,提高幼苗叶绿素含量、净光合速率、根系活力、可溶性蛋白含量和抗氧化酶活性,提高生长素(IAA)和油菜素内酯(BR)含量,降低活性氧和丙二醛(MDA)含量以提高幼苗的耐寒性。本研究为培育黄瓜壮苗和提高黄瓜幼苗耐寒性提供了新方法,也为复硝酚钠在设施蔬菜上的应用提供了技术支持。     

短期培养下抑制剂烯丙基硫脲对土壤硝化作用及微生物的影响

硝化抑制剂烯丙基硫脲（ATU）对土壤硝化作用及温室效应的影响及机理尚不清楚。本研究采集典型旱地土壤,进行21天室内微宇宙培养,探究了氮肥与不同剂量ATU（分别为氮素用量的1%, 5%, 10%, 15%和20%）配施对土壤硝化作用及N2O和CO2排放通量的影响,并通过实时荧光定量PCR和高通量测序16S rRNA基因技术监测硝化微生物群落变化,同时与传统硝化抑制剂双氰胺（DCD）进行了保氮减排效果的对比。结果表明,与未施加氮肥的对照相比（CK）,单施氮肥（N）显著提高了土壤硝化强度并促进了N2O排放。DCD能显著抑制硝态氮和N2O的积累,抑制效率分别为68.6%和93.3%。而低浓度ATU对土壤硝化作用无影响,仅在高浓度具有抑制效应,且抑制效率最高仅为14.7%。所有ATU处理N2O排放量均显著降低,降幅为60.3～68.2%,仍远高于DCD处理。处理间N2O和CO2的综合温室效应强弱顺序为N>ATU+N>DCD+N≈CK,且不同ATU施用量处理之间差异不显著。相关分析发现氨氧化细菌（AOB）,而不是氨氧化古菌（AOA）和全程氨氧化细菌（Comammox）,与土壤硝态氮积累和N2O排放显著正相关,与土壤pH显著负相关。高通量测序结果表明Nitrosovibrio tenuis类型AOB对氮肥诱导的硝化过程起主导作用。除此之外,ATU和DCD还能显著提高Cupriavidus,并降低Patulibacter、Aeromicrobium、Actinomycetospora、Defluviicoccus和Acidipila等微生物属在群落中的相对丰度。该研究为深化土壤碳氮循环理论,合理使用硝化抑制剂以及减缓温室气体排放提供科学依据。     

Effects of Nitrogen Application Rates on Rice Grain Yield,Nitrogen-Use Efficiency,and Water Quality in Paddy Field

Excessive nitrogen (N) fertilizer application is common in the central Zhejiang Province area, China. A three-year (2009–11) experiment was conducted to determine the optimum N application rate for this area by studying the effects of various N rates on rice (Oryza sativa L.) yield, N-use efficiency (NUE), and quality of paddy field water. Results showed that no significant yield differences were observed under N rates from 180 to 315 kg ha^?1. The NUE could be improved by reducing N application rates without significantly decreasing yield. Due to high ammonia (NH₄⁺-N) and nitrate (NO₃^—N) concentrations, 5–7 days after N application was a critical stage for reducing N pollution. The N rate for the greatest yield was 176 kg ha^?1, accounting for 65 percent of the conventional N rate (270 kg ha^?1). The N-rate reduction in this area may be necessary for maintaining high yield, improving NUE, and reducing environmental pollution.     

Estimation of Water Content in Winter Wheat (Triticum aestivum L.) and Soil Based on Remote Sensing Data–Vegetation Index

In this study, a suitable and near-real-time water status monitoring approach for winter wheat before harvest was developed with remotely sensed satellite data. Seven vegetation indices were extracted as remote-sensing parameters by making full use of the land surface reflection and land surface temperature transmitted by moderate resolution imaging spectroradiometer (MODIS) data. The correlation of each vegetation index and measured values of winter wheat and soil water contents in different crop growth periods was established. The simulation models, combining vegetation index, soil water content (SWC), and plant water content (PWC) in different winter wheat growth periods, were constructed to predict water content by using remote-sensing data. We found that the correlations between the difference vegetation index (DVI) and the perpendicular vegetation index (PVI) in the beginning of the stem elongation period with SWC were highly significant (P < 0.01); the correlation between the global environmental monitoring index (GEMI) in the ear emergency period and SWC was highly significant (P < 0.01). Furthermore, the correlation between the PVI in maturing period and SWC was highly significant (P < 0.01). Data of different coefficients of vegetation indices and PWC in different winter wheat growth periods illustrated that correlation between the DVI in the beginning of stem elongation period and PWC was highly significant (P < 0.01), while the correlation between the PVI in the maturing period and PWC was highly significant. Our results indicated that spatial and temporal vegetation indices were closely related to soil moisture and winter wheat water content in Wenxi County, Shanxi Province (P. R. China). The vegetation index is conceptually and computationally straightforward and may be used in prediction of environmental hydrological status.     

Influence of lime and phosphorus on soybean (Glycine max (L.) Merrill) yield,leaf and seed composition on a paleudult soil

Abstract

This research was undertaken on a paleudult soil in southern Brazil, 30° south latitude, to quantify lime and P effect upon soybean (Glycine max (L.) Merrill). A lime x P factorial experience with lime treatments of 0, 0.5, 1, and 2 times SMP interpretation to pH 6.5, and 0, 44, 88, 132, and 176 kg P/ha with 3 replications were installed. The experiment was conducted for 2 years (1973–74, 1974–75), with leaf‐N, P, and K; yield; seed‐N, P, and K; Bray P₂ (0.03N NH₄F + 0.1N HC1) avail‐able‐P and soil pH measurements completed each year. Data was evaluated with linear, quadratic, logarithmic, polynomial, segmented line, and multiple regression using the coefficient of determination as goodness of fit.

The best model fit between P treatment and Bray P₂ available‐P was a quadratic equation; the model between relative yield and Bray P_2‐P with 54% of the relative yield attributed to Bray P₂ available‐P, a sigmented line. This model indicated point of maximum yield (91% relative yield) was obtained at 7.4 ppm‐P, with no increase in relative yield with increasing levels of soil available‐P. To calculate the P fertilizer necessary to increase available soil‐P to the level of maximum yield of equation Y_p = [1639(7.4 ‐ x_s)]^1/2, where Y_p = kg P/ha fertilizer needed; and x_s = initial Bray P₂ soil available‐P in ppm's. The lime effect upon soil pH was best described as a linear relationship. Yield increase with lime at this site was not significant at the 5% level.

The leaf‐N, P, and K increased significantly with soil available‐P levels. A second degree polynomial with logarithmic function best defined these relationships. The calculated DRIS indices and sum proved useful to evaluate the plant‐N, P, and K balance of each treatment.

Only seed‐P level was directly related to soil available‐P. Both seed‐N and seed‐K were highly correlated with indirect effects of soil available‐P levels.

Results from this study suggest the segmented line model would best interpret soybean yield response to Bray P₂ available‐P for this soil. To obtain maximum yield using this model rather than the second degree polynomial would require less fertilizer P. Foliar analyses interpretation confirmed adequate plant‐P level would be supplied for maximum yield at this level of fertilization.     

NH4+-K+ co-loaded clinoptilolite as a binary fertilizer

ABSTRACT

Understanding the potential of clinoptilolite (CLI) for adsorption of NH₄⁺ and K⁺, providing appropriate fertilizer formula, and evaluation of the produced zeolitic nutrient sources (ZNSs) to meet the plant need are the main objectives of this study. Three ZNSs (NH₄⁺-saturated, K⁺-saturated and dual-purpose NH₄⁺-K⁺ saturated CLI) were produced, assessed, and compared with commercial N and K fertilizers (CFs) on corn growth in a greenhouse. The results indicated that CLI can potentially adsorb both NH₄⁺ and K⁺ to the maximum values of 25.00 mg-NH₄⁺ g^?1 and 47.61 mg-K g^?1, respectively, and chemisorptions mainly followed the process of adsorption. Saturation of zeolite by NH₄⁺ and K⁺ occurred after 10 and 15 d which lead to ZNSs with 2% and 5% of N and K, respectively. NH₄⁺-K⁺ saturated CLI contained 1% N and 1% K. The greenhouse experiment showed no significant difference between ZNSs and CFs on plant growth. However, the application of both N and K in the form of zeolitic sources significantly increased the uptake of N by the plant. The highest uptake of K (2.05 g pot^?1) occurred in plants supplied with both natural zeolite and CFs. The present results may benefit the future utilization of ZNSs in environmental friendly farming practices.     

基于最小数据集和模糊数学法的水旱轮作区土壤肥力质量评价

基于湖北省水旱轮作区133个土壤样点数据,利用主成分分析及参选指标相关关系法确定了该区域土壤肥力质量评价的最小数据集,分别为土壤有机质、碱解氮、速效磷、速效钾、有效硼、有效钼、有效锌。利用模糊数学隶属度函数法对该区域土壤肥力质量进行了评价,结果表明:湖北省水旱轮作区的赤壁、洪湖、荆州、麻城和沙洋5个市(区、县)的土壤肥力质量以中等(III)为主,差(Ⅳ)等级次之,其中赤壁市和沙洋县土壤肥力质量以良(II)等级的比例(12.5%和9.5%)大于其他县市,5个县市土壤肥力质量均无优(I)和很差(V)2个等级。     

渤海石油平台污损生物生态研究

2013年9月-2014年9月在渤海海域进行了污损生物挂板试验,共记录污损生物24种,以温带种和广温种为主,优势种是多棘麦秆虫(Caprella acanthogaster)、日本大螯蜚(Grandidierellajaponica)、理石叶钩虾(Jassa marmorata)、拟钩虾(Gammaropsis sp.)等.季板分析结果显示,表层季板的平均生物量为1764.23 g/m2,中层季板的平均生物量为2322.31 g/m2.试验海域全年均有污损生物附着,但种类和附着量季节性差异明显,污损生物附着盛期为夏季和秋季.污损生物群落Shannon-Wiener多样性指数(H')和Margalef丰富度指数(d)秋季最高.多元统计分析表明,污损生物群落按时间可分为3个群落类型,反映出渤海海域污损生物群落的季节变化明显.相关性分析显示,表层和中层试板污损生物的生物量与水温具有显著的相关性,相关系数分别为0.959和0.986(P＜0.01).