滴灌下氮盐交互对加工番茄荧光特性及产量品质的影响

【目的】新疆有着全中国最大面积的盐碱地和加工番茄的种植基地。在新疆开展两年试验以研究加工番茄在氮盐交互下生长、生理、产量和品质的变化规律,获得适宜新疆盐碱地种植加工番茄的合理施氮量和土壤盐分范围,为新疆扩大加工番茄种植面积和合理施氮提供科学的理论依据及技术途径。【方法】试验于2017和2018年在石河子大学现代节水灌溉兵团重点实验基地进行,以当地主栽品种3166为试验材料,2017年试验共设置4个土壤含盐量水平：1.5、4.0、7.0和10.0 g·kg ^-1及4个氮素水平：201、166、131和96 kg·hm ^-2,2018年在2017年的基础上去除10.0 g·kg ^-1的土壤含盐量,增加5.0 g·kg ^-1的土壤含盐量和不施氮量处理。试验测定和分析加工番茄的荧光叶绿素参数、产量和品质指标。【结果】在氮盐交互下,加工番茄荧光参数及产量等指标均呈现出复杂的变化规律。绝大多数的荧光参数及产量受土壤盐分的主导作用较氮素强,在同等氮素水平下,7.0 g·kg ^-1和10.0 g·kg ^-1的土壤盐分对加工番茄荧光指标抑制程度最大;低盐分水平下,166 kg·hm ^-2的中等偏高的施氮量对加工番茄的荧光指标促进作用最大,其次是施氮201 kg·hm ^-2的处理;在中等偏高的盐分水平下,96 kg·hm ^-2的低氮对加工番茄的最好,其次为不施氮水平。加工番茄的鲜果产量总体上符合“盐高产低”的规律,但低氮高盐处理的产量明显高于其他同盐度的氮素水平下的产量。可溶性固形物、VC、可溶性糖和可滴定酸均随着土壤含盐量的增大逐渐增大,糖酸比的最大值均出现在低盐处理,盐分对加工番茄品质的影响远高于氮素,二者交互对加工番茄的品质并无显著性影响。通过图形叠加分析方法,得出了加工番茄获得相对最优产量和品质的合理施氮范围和土壤含盐量区间。【结论】在盐碱程度偏高的土壤可通过少施氮素来提高加工番茄产量;加工番茄获得相对最优产量和品质的合理施氮范围和土壤含盐量区间为N：98.12—119.60 kg·hm ^-2,S：3.57—5.58 g·kg ^-1。     

PBAT生物降解地膜与加厚型塑料地膜降解性能及对番茄生长的影响

为筛选出易降解或易回收,对环境污染小,适宜在番茄生产中应用的地膜,研究了PBAT生物降解地膜与0.012 mm加厚型塑料地膜的差异性,以0.010 mm普通塑料地膜作为对照,对比了各种地膜的降解周期,以及对番茄生长和产量的影响。试验结果表明:在影响植株长势方面,3种地膜对番茄植株株高、茎粗、叶片数的影响差异不显著;在影响作物产量方面,覆盖0.012 mm地膜的番茄产量最高,其次是PBAT生物降解地膜,覆盖0.010 mm塑料地膜番茄产量最低;在地膜降解性能方面,PBAT生物降解地膜降解性能较强,0.012 mm加厚型塑料地膜韧性强,不易破碎,有利于后期回收利用,0.010 mm塑料地膜韧性差,不利于回收;建议生产中根据实际气候、土壤、作物等条件选择适宜的PBAT生物降解地膜或加厚型塑料地膜。     

永州地区早春大棚甜瓜新品种引进比较试验

为筛选出适宜永州地区早春大棚种植的甜瓜新品种,通过随机区组设计,对6个参试甜瓜品种进行比较。试验结果表明,脆禧表现为早熟,一品红、玉菇生育期与CK(雪峰蜜2号)接近,3个品种均表现高产,且商品性、口感、含糖量较优,因此认为脆禧、一品红、玉菇这3个品种适宜在湖南永州地区推广种植。     

Effects of biodegradable mulch on soil quality

Biodegradable plastic films are desirable alternatives to traditional black polyethylene plastic for use as mulches in agroecosystems. Efforts are ongoing to engineer biodegradable plastic mulches that could be incorporated into the soil at the end of the crop season, and decomposed by microorganisms, ultimately to CO₂, H₂O, and biomass. Whether changes in soil quality occur during or following biodegradation is unknown. An 18-month study evaluated the effects on soil quality following burial of four potentially biodegradable mulches and a no mulch control in high tunnel and open field tomato production systems across three geographically distinct locations (Knoxville, TN; Lubbock, TX; Mount Vernon, WA). The mulch treatments included: two starch-based mulches (BioAgri^® Ag-Film and BioTelo Agri); one experimental 100% polylactic acid mulch (Spunbond-PLA-10); one cellulose-based mulch (WeedGuardPlus; positive control); and a negative control (no mulch). The soil management assessment framework (SMAF) was used to calculate a soil quality index (SQI) according to five dynamic soil properties: microbial biomass carbon, β-glucosidase, electrical conductivity, total organic carbon (TOC), and pH. Within the 18-month evaluation period, the effects of the biodegradable mulches on the SQI were minor, and dependent upon production system and time of incubation at all locations. In general, the SQI was higher in the high tunnel systems for some of the mulch treatments at Knoxville and Lubbock but the opposite was true at Mount Vernon. By the final sampling at 18 months, the SQI was lowest for WeedGuardPlus at Lubbock and Mount Vernon but at Knoxville, the WeedGuardPlus SQI was not significantly different from the no mulch control. Of the five SMAF indicators evaluated, soil microbial biomass and β-glucosidase activity were the most responsive to mulch and production systems, supporting the use of these variables as soil quality indicators for short-term changes due to this agricultural management practice.     

旱作滴灌铺膜播种农机化技术集成与应用

为解决因水资源缺乏导致的粮食减产问题,开原市大力推广旱作滴灌铺膜播种农机化技术。详细介绍该技术的主要内容、关键环节及培训情况,并综合分析该技术的经济效益、社会效益和生态效益,为该技术在开原市推广应用提供有益借鉴。     

麻地膜对设施樱桃番茄(Solanum lycopersivon)生长及产量的影响

为了明确麻地膜覆盖在设施大棚内对樱桃番茄生长及产量的影响,本研究采用‘浙樱粉1号’为实验材料,设置3个处理:麻地膜覆盖、塑料地膜覆盖及对照(不覆盖),比较了不同覆盖措施对‘浙樱粉1号’株高、茎粗、单株鲜重、结果数量及樱桃番茄鲜果重的影响。结果表明,在设施大棚内采用麻地膜覆盖增加了‘浙樱粉1号’株高、茎粗、结果数量及樱桃番茄鲜果重。麻地膜覆盖对设施大棚内种植的樱桃番茄有增产作用,麻地膜的推广应用可以减少塑料地膜对环境污染,利于农业的可持续发展。     

张家口宣化地区双膜覆盖西瓜栽培技术

以张家口宣化地区万亩的西瓜种植基地为研究对象,分析了当地一百多年以来西瓜种植技术演化改进后的种植方式,包括西瓜自根苗连作的栽培方式及双膜覆盖西瓜套种茄子的经济效益,肯定了这种西瓜栽培方式在当地继续发展和推广的价值。     

不同施氮量下覆膜滴灌玉米相对根长密度模型研究

为探明施氮量对宁夏引黄灌区覆膜滴灌玉米根长密度(RLD)的影响,设置5个施氮水平和1个对照(CK,不施氮与不覆膜)进行试验,测定玉米RLD,建立不同施氮量下相对根长密度(NRLD)模型,并加以检验。结果表明:不同施氮处理的玉米RLD分布区域均随土层深度的增加而减小,且大部分集中在0～20 cm土层;随着施氮量的增加,RLD分布区域明显扩大; NRLD分布满足三阶多项式函数模型,模拟曲线的决定系数R2为0.951,模型检验结果R2为0.845,均方根误差(RMSE)为0.248,拟合效果好,但该多项式模型不能保证NRLD在相对取样深度Zr为1时达到0,故对玉米NRLD分布多项式模型进行优化。优化模型验证结果显示,各施氮处理RMSE不大于0.308,CK、N0、N1、N2、N3和N4处理的标准化均方根误差分别为0.242、0.193、0.184、0.226、0.208和0.273,R2分别为0.903、0.953、0.920、0.944、0.962和0.898,具有较高的拟合度,解决了NRLD在Zr=1时达到0的问题。本研究可为宁夏引黄灌区膜下滴灌玉米NRLD分布拟合、根系养分吸收和施肥管理提供理论参考。     

Properties of Edible Films Made From Anchovy By-Product Proteins and Determination of Optimum Protein and Glycerol Concentration by the TOPSIS Method

In the present study, the physicochemical and mechanical properties of films made from anchovy (Engraulis encrasicholus) by-product proteins (ABPs) were characterized as a function of protein (3, 4, and 5%) and glycerol (30, 40, 50, and 60%) concentration. In particular, the thickness, color, transparency, water vapor permeability (WVP), solubility, oxygen permeability (OP), and mechanical properties of the films were measured, and generally, these properties were affected by both protein and glycerol concentration. The thickness, redness, WVP and solubility values of films increased, while their lightness and yellowness values decreased as protein concentration increased. Furthermore, lightness, yellowness, and elongation at break (EAB) values were found to increase at higher glycerol concentrations within ABP films, whereas tensile strength (TS) and elastic modulus (EM) values decreased. ABP films became more transparent with increase of glycerol concentration and decrease of protein concentration. The OP values of all films decreased depending on protein and glycerol concentration. The techniques for order performance by similarity to ideal solution (TOPSIS) method was used to determine optimum protein and glycerol concentrations. According to this method, an edible film containing 4% protein and 40% glycerol was the best film with a C value of 0.6665.