木枣抗裂变异系的鉴定和果实性状分析

在枣品种的抗裂性调查中，发现“木枣”存在变异系。本研究以“木枣”、变异系“V1”、变异系“V2”和易裂品种“狗头枣”为供试材料，在采用冷水浸泡法进行室内裂果率测定和抗裂性分析的基础上，对单果重、果纵茎、果横茎、果纵横茎比、单核重、核纵茎、核横茎、核纵横茎比、梗洼宽度、肉核比、含水量等果实性状进行了测定。结果表明：裂果率表现为狗头枣>V1≈木枣>V2，筛选出木枣优良抗裂变异系V2，与木枣遗传背景一致，抗裂性又极显著优于木枣，可为后续裂果机理研究和抗裂品种选育提供育种材料。品种的抗裂性与果形、核形、肉核比、梗洼宽度有关。果实较小、果核较小、果形细长、肩大尾尖、肉核比高、梗洼宽度大，抗裂性好。     

辣椒细菌性果实条斑病菌生物学特性及抑菌药剂筛选

研究辣椒细菌性果实条斑病菌的生物学特性,对病原菌进行室内药剂筛选,旨在为田间病害规律研究和病害防治提供依据。采用紫外分光光度计测定病原菌在不同温度、pH、NaCl浓度下的生长速率。采用滤纸片抑菌圈法对病原菌进行室内药剂筛选试验。结果表明,辣椒细菌性果实条斑病菌最适生长温度为28℃,最适pH 7.0,病原菌的耐盐性为12%。18种供试药剂在药剂推荐使用剂量范围内,四霉素、乙蒜素、77%志信、氯溴异氰尿酸4种药剂对病原菌有抑菌效果,对这4种药剂进行毒力测定,结果表明四霉素的毒力较强,EC₅₀值为11.75 mg/L,毒力强于其他3种试剂,四霉素可作为田间防治药剂的首选。     

黄岩水果苗木与农产品检疫现状及对策建议

在1981-2018年黄岩水果类苗木及非种用农产品调运检疫中,共调出柑橘、杨梅和枇杷等苗木10 475批次,11 051.42万株;柑橘果实等非种用农产品147 689批次,852 920.95 t。基于柑橘等水果苗木调运检疫数量变化与水果产业发展变化关系,分析了果苗检疫存在的问题,包括无证育苗现象较普遍、检疫申报不规范、疫情信息不对称和漏检逃检等,提出了水果类苗木生产经营实行许可证制度、严格遵守植物检疫规程、建立种苗调运可追溯和到达地报告复检制度等建议,这对做好调运植物检疫工作有积极意义。     

Cultivation effects on soil texture and fertility in an arid desert region of northwestern China

In arid desert regions of northwestern China, reclamation and subsequent irrigated cultivation have become effective ways to prevent desertification, expand arable croplands, and develop sustainable agricultural production. Improvement in soil texture and fertility is crucial to high soil quality and stable crop yield. However, knowledge on the long-term effects of the conversion of desert lands into arable croplands is very limited. To address this problem, we conducted this study in an arid desert region of northwestern China to understand the changes in soil physical-chemical properties after 0, 2, 5, 10, 17, and 24 years of cultivation. Our results showed that silt and clay contents at the 17-year-old sites increased 17.5 and 152.3 folds, respectively, compared with that at the 0-year-old sites. The soil aggregate size fraction and its stability exhibited an exponential growth trend with increasing cultivation ages, but no significant change was found for the proportion of soil macroaggregates (>5.00 mm) during the 17 years of cultivation. The soil organic carbon (SOC) content at the 24-year-old sites was 6.86 g/kg and increased 8.8 folds compared with that at the 0-year-old sites. The total (or available) nitrogen, phosphorus, and potassium contents showed significant increasing trends and reached higher values after 17 (or 24) years of cultivation. Changes in soil physical-chemical properties successively experienced slow, rapid, and stable development stages, but some key properties (such as soil aggregate stability and SOC) were still too low to meet the sustainable agricultural production. The results of this long-term study indicated that reasonable agricultural management, such as expanding no-tillage land area, returning straw to the fields, applying organic fertilizer, reducing chemical fertilizer application, and carrying out soil testing for formula fertilization, is urgently needed in arid desert regions.     

Effects of sediment load on the abrasion of soil aggregate and hydraulic parameters in experimental overland flow

The breakdown of soil aggregates under rainfall and their abrasion in overland flow are important processes in water erosion due to the production of more fine and transportable particles and, the subsequent significant effect on the erosion intensity. Currently, little is known about the effects of sediment load on the soil aggregate abrasion and the relationship of this abrasion with some related hydraulic parameters. Here, the potential effects of sediment load on soil aggregate abrasion and hydraulic parameters in overland flow were investigated through a series of experiments in a 3.8-m-long hydraulic flume at the slope gradients of 8.7 and 26.8%, unit flow discharges from 2×10~(–3) to 6×10~(–3) m~2 s~(-1), and the sediment concentration from 0 to 110 kg m~(–3). All the aggregates from Ultisols developed Quaternary red clay, Central China. The results indicated that discharge had the most significant(P0.01) effect on the aggregates abrasion with the contributions of 58.76 and 60.34%, followed by sediment feed rate, with contributions of 39.66 and 34.12% at the slope gradients of 8.7 and 26.8%, respectively. The abrasion degree of aggregates was found to increase as a power function of the sediment concentration. Meanwhile, the flow depth, friction factor, and shear stress increased as a power function along with the increase of sediment concentration at different slope gradients and discharges. Reynolds number was obviously affected by sediment concentration and it decreased as sediment concentration increased. The ratio of the residual weight to the initial weight of soil aggregates(Wr/Wi) was found to increase as the linear function with an increasing flow depth(P=0.008) or Reynolds number(P=0.002) in the sediment-laden flow. The Wr/Wi values followed a power function decrease with increasing friction factor or shear stress in the sediment-laden flow, indicating that friction factor is the best hydraulic parameter for prediction of soil aggregate abrasion under different sediment load conditions. The information regarding the soil aggregate abrasion under various sediment load conditions can facilitate soil process-based erosion modeling.     

多花黄精不同种源种实形态性状遗传变异研究

旨在阐明多花黄精种实形态性状在种源水平上的遗传变异规律,为多花黄精优良种源选择提供理论依据。以栽植在同质栽培园的18个多花黄精种源为材料,比较了不同种源多花黄精浆果、种子的纵径、横径、侧径等形态性状,以及单果重和种子千粒重等性状的差异。多花黄精种实形态性状及其单果鲜重和种子千粒重在不同种源间均存在着极显著差异;多花黄精浆果形态性状两两之间存在极显著正相关关系,种子形态性状两两之间也存在显著或极显著正相关关系,但绝大多数浆果形态性状与种子形态性状之间的相关性不显著;多花黄精种实形态性状在种源水平上不存在明显的地理变异模式;多花黄精种子形态性状在种源水平上的广义遗传力达到强度遗传范围,能比较稳定地遗传。可以考虑利用种子千粒重这一指标作为多花黄精优良种源选择的间接指标。     

果品分级技术研究的现状及展望

通过有效的检测，及时解决虫害或机械造成的损伤，从而减轻果品之间病虫害的传播，同时 还需要对残次品进行处一定理，以确保成本的有效降低，达到全面提高我国果品的品质，增加国际市 场的竞争力。基于此，本文主要讨论了果品分级技术的落实现状以及发展情况。     

基质深度及基质袋摆放方式对春季袋培番茄产量、品质和养分吸收的影响

为探究不同栽培深度基质和基质袋摆放对春季袋培番茄产量、品质、养分吸收和基质养分利用率的影响,以‘巴宝丽’番茄为试材,设置不同基质深度(7.5、10.5和13.5cm)及基质袋不同摆放方式(地面摆放和地面下沉20cm),共6个处理,测定了番茄的生长发育、产量、品质和养分吸收等指标。结果表明:栽培基质深度对产量、果实品质均有显著影响;基质袋摆放方式对产量影响不显著,但显著影响果实可溶性蛋白、番茄红素、硝酸盐和有机酸含量;基质深度和基质袋摆放方式对果实硝酸盐含量的影响有显著的交互作用。随着栽培基质深度的增加,产量显著提高,品质明显改善;基质深度13.5cm时,番茄单株产量最高,达3.83kg/株。基质袋摆放方式和基质深度对番茄开花期、初果期及盛果期P和K的累积吸收影响显著,基质深度对番茄开花期、初果期和盛果期N的吸收也有显著影响,基质深度和基质袋摆放方式对开花期和初果期番茄植株N、P和K的累积吸收存在显著的交互作用。基质内N、P和K养分利用率均是基质深度为13.5cm的处理最高,且不同基质袋摆放方式对基质养分利用率无显著影响。综上,为实现省工省力且高产优质载培,在实际生产中推荐将春季栽培番茄的基质深度设置为13.5cm(即基质供应量为9L/株)且地面摆放。     

活性氧调控果实发育成熟的研究进展

活性氧(reactive oxygen species,ROS)存在于整个植物生长发育过程,一旦积累过多会导致氧化应激反应,但是适度的氧化胁迫有利于果实成熟。本文对活性氧影响果实成熟的生理机制,活性氧与激素互作调控果实成熟的机理,活性氧调控果实成熟的分子机制,以及活性氧与钙离子调控采后果实后熟等相关研究进展进行了总结和评述,旨在通过总结活性氧直接或间接调控果实衰老成熟的研究进展,为今后利用活性氧调控果实成熟提供理论依据和参考。     

根域限制栽培对主干形‘圆梦’桃生长和果实品质的影响

根域限制栽培具有控制树冠、促进果树成花的优点，适宜在主干形整枝的密植果园中应用，但不同品种桃表现不同。‘圆梦’桃是由‘湖景蜜露’和‘白丽’杂交而来的中晚熟新品种，为明确‘圆梦’用作南方密植品种的适用性，以浙江省桃主栽品种‘湖景蜜露’为对照品种，对其营养生长、成花量和果实品质进行了研究，结果表明根域限制栽培的‘圆梦’树体营养生长和枝条成花量与‘湖景蜜露’基本一致，且果型大小、糖度、色泽更优。