苹果树种植对黄土旱塬土壤蒸发的影响

以陕西长武旱塬为例,分别对研究区农地和5个不同林龄(9、12、16、19 a和23 a)苹果园的土壤剖面氢氧稳定同位素进行测定,利用Craig-Gordon模型定量估算其土壤平均蒸发量,并基于“空间换时间”方法分析果园种植及生长对土壤蒸发的影响。结果表明：农地及9、12、16、19、23 a林龄苹果园的土壤蒸发量均随苹果树的种植及生长呈现先减少再增大的趋势,年均蒸发量分别为129、104、89、119、128、136 mm;苹果园的土壤蒸发量变化与叶面积指数呈显著负相关(R=-0.713);苹果园种植的前中期(9～12 a)土壤蒸发量随叶面积指数增加逐渐减小,而在中后期(12～23 a)深层土壤水被大量消耗造成的干旱胁迫使得果树叶面积减少,从而导致林下土壤蒸发量又逐渐增大。     

Assessment of the socio-economic impacts associated with the arrival of apple snail (Pomacea canaliculata) in Mwea irrigation scheme,Kenya

Background

In Kenya, rice (Oryza sativa L.) is mainly produced under irrigation by small-scale farmers. Mwea irrigation scheme (MIS) in Kirinyaga County accounts for 80–88% of rice production. Here, rice is the main source of livelihood and a source of revenue generation for the county. However, a recently established invasive freshwater snail, Pomacea canaliculata (Lamarck) (family: Ampullariidae), a species of apple snail, presents a serious threat to rice production.

Results

Household surveys, focus group discussions and key informant interviews highlight apple snail as a serious problem in MIS. Households that observed at least a moderate level of infestation (>20% of cultivated area) experienced significant reductions in rice yield (~14%) and net rice income (~60%). Farmers reported increased use of chemical pesticides for management of apple snail. In addition, the cost of hired labor for physical removal of egg masses and snails is resulting in substantial negative effects on net income. Farmer age, area of land owned, responsibility for decision-making, receipt of extension advice, training, and membership of a farmer organization, were all statistically significant variables to explain farmers awareness of the need for area-wide apple snail management.

Conclusion

Strategies to limit the spread of apple snail are urgently needed. A Multi-Institutional Technical Team (MITT) has been established to spearhead management efforts and consolidate advice to farmers on how to manage apple snail. However, without action to mitigate spread, the consequences could be disastrous for rice production and food security in Kenya, and for other rice growing regions across Africa. © 2023 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.     

利用苹果加工下脚料生产膳食纤维的研究

主要研究利用苹果加工后的下脚料生产膳食纤维的工艺流程、操作要点、产品质量标准及综合利用效益。     

Effects of arrangement of surge-rootirrigation emitters on growth,yield andwater use efficiency of apple trees

Six-year old apple trees were selected for field experiment. The objective of this study was to obtain the reasonable arrangement of surge-root irrigation emitters in apple orchards. There were three factors: the buried depth H( 25,40,55 cm),the horizontal distance L( 30,40,60 cm) between the emitters and the trunk of the experimental tree,and the number of the irrigation emitters N( 1,2,4). The effect of the arrangement of surge-root irrigation emitters on the growth,yield and irrigation water use efficiency( IWUE) of apple trees were studied in Northern Shaanxi where the irrigation quota takes 60%-75% of the field water capacity. The results showed that the arrangement of emitters for surge-root irrigation had a significant effect on apple tree yield and IWUE,especially,the yield and IWUE reached 28 388. 17 kg/hm2 and 16. 83 kg/m3 in treatment T3,respectively. At the same L and N levels( T1,T2,and T3),the yield and IWUE in treatment T3 were the highest,and the yields in treatments T1 and T2 were decreased by 26.22% and 31.48%,while IWUE is reduced by14.02% and 18.12% compared with T3,respectively. At the same H and N levels( T3,T4,and T5),the yield and IWUE of apple trees were decreased with increasing L level. Especially,when L was 30 cm( T3),the yield and IWUE were the highest. The same L and H levels( T3,T6,and T7) could promote the growth of apple trees when N was 2( T3). Compared with treatment T3,it was found that the increment of new shoots was decreased by 8.07%-18.71%,and the fruit diameter was decreased by 5.41%-9.11%. Therefore,two emitters should be arranged symmetrically on both sides of an apple tree,each was buried at a 40 cm depth and 30 cm away from the trunk of the tree to effectively improve the yield and IWUE of the apple tree in mountainous areas in Northern Shaanxi.     

苹果外部缺陷全表面在线检测分选装置研发

中国是水果消费大国,但在水果产后检测装备方面相对滞后。针对目前在线检测装置无法采集苹果全表面图像信息且无法精确计算缺陷面积的问题,该研究以表面缺陷面积的快速检测为主要目标,提出苹果全表面图像合成算法,设计了一套苹果外部品质在线检测及分级装置。该研究以苹果为例,基于球模型提出苹果全表面图像合成算法、缺陷面积校正算法精确计算苹果的表面缺陷面积。通过试验验证,对苹果表面图像进行分割合成后,整体的图像的漏检率为0。提出缺陷面积校正算法,可以计算图像中位于任意位置的苹果缺陷真实面积,选取了120个样本进行验证,其中擦伤样本、碰伤样本、痘斑病样本、表面腐败样本各30个。4种表面损伤面积的预测值和真实值的决定系数R²均在0.97以上,均方根误差(Root Mean Squared Error, RMSE)在4 mm²以下。在偏角试验中,4种表面损伤面积的预测值和真实值的决定系数R²均在0.974 2以上,RMSE在6.304 4 mm²以下。装置检测苹果的速度为2个/s,评级准确率为95%。研究结果表明,检测与苹...     

不同灌溉方式对苹果园土壤水分动态、耗水量和产量的影响

为探讨不同灌溉方式对苹果园土壤含水率、生育期耗水量、产量及水分利用效率的影响,于2005年4～11月在密云水库上游地区新城子蔡家甸有机苹果基地布设了3种灌溉方式(管灌、滴灌和微喷灌)及对照(不灌溉)共4个处理、3个重复的对比试验.分别在苹果树开花期、枝条速长期、成熟期和封冻前灌水,依据不同灌溉方式的灌溉效率以及田间土壤实际含水率等因素确定灌水量.结果表明:(1)在3种灌溉方式处理中,微喷灌、滴灌处理的0～60 cm土层土壤含水率较高,入渗深度在80 cm以内,未产生水分深层渗漏.管灌向下入渗深度大于微喷灌和滴灌,达到120 cm.(2)在整个生育期内,微喷灌和滴灌处理比管灌节约灌水量分别是31.99%和49.83%;微喷灌和滴灌条件下果园耗水量较管灌分别减少11.52%和12.49%.(3)从产量来看,微喷灌、滴灌、管灌产量分别比对照高25.74%、9.99%和0.78%;微喷灌产量达到51 000 kg/hm2;其水分利用效率最高且达到9.288 kg/m3.总体看来,微喷灌是相对较好的节水增效灌溉方式,值得在果园灌溉中应用.     

铜川市耀州区苹果林土壤水分状况研究

测定铜川市耀州区果地、果地～黄姜地和麦地不同类型土壤剖面含水量,研究其0～600 cm之间土壤含水量的变化情况.结果表明,耀州区正常降雨年份果地土层含水量从地表到地下呈现由低到高的变化,200～400 cm范围内出现了发育较弱的轻度干层;果地～黄姜地500 cm以上土壤水分得到了恢复,干层消失;500 cm以下土壤水分得到了补偿,但没有完全恢复.麦地100 cm以下土壤含水量没有明显变化,土层含水量正常.可见,轮作可以使土壤水分在一定范围内得到恢复.最后提出了土壤水分恢复的四点措施.     

基于声振信号对称极坐标图像的苹果霉心病早期检测

为实现苹果早期霉心病较高精度的检测,该研究采用对称极坐标法（Symmetrized Dot Pattern,SDP）将苹果声振信号变换为雪花图,然后采用AlexNet、VGG16和ResNet50卷积神经网络以迁移学习方式深度挖掘SDP雪花图像的特征信息,将其输入到支持向量机（Support Vector Machine,SVM）分类器,对霉心程度≤7%的苹果进行检测。研究结果表明,当时间间隔系数为25和角度放大因子为50°时,健康果与早期霉心果声振信号的SDP图形状特征差异最大,在此条件下获取的SDP图经卷积神经网络AlexNet、VGG16和ResNet50提取特征并构建了不同核函数的SVM霉心果检测模型,在各类SVM模型中,ResNet50-SVM-gaus（高斯基）模型用相对较少的训练时间和参数量可取得训练集霉心果较高分类准确率,经超参数优化训练该模型对健康果和早期霉心果测试集不平衡样本（10∶1）的总体分类准确率达到96.97%,平均查准率、平均查全率、平均加权调和均值、Kappa系数和马修斯相关系数值分别为80.19%、90.36%、86.21%,82.54%和82.68%,该模型不仅对多数类的健康果保持较高分类准确率,而且对少数类的早期霉心果也具有较高判别能力。这些研究结果为声振法应用于果蔬内部病害的早期在线检测系统研发提供了技术支撑。     

栖霞市苹果园氮磷养分平衡及环境风险评价

栖霞市是中国最主要的苹果产区之一,近年来果园单位面积养分的大量投入造成了区域氮、磷元素的过量富集,进而对当地的土壤、水资源、大气等环境要素造成一定的污染。因此,了解苹果主产区施肥现状,并科学评价其环境风险具有重要的现实意义。以栖霞市为研究区域,通过实地调研、田间试验、室内模拟等方法,分析了苹果园氮磷养分的输入量及输出量,进而构建养分平衡模型,对区域环境风险进行了综合评价。研究结果表明:1)2018年栖霞市苹果园养分投入量为:有机质5360.28 kg/hm^2,N 545 kg/hm^2,P2O5568.76 kg/hm^2,K2O 712.57 kg/hm^2;2)氮素的气态损失、果实及枝条带走量各占输入总量的6.49%、24.34%、3.12%,盈余率达66.04%(402.97 kg/hm^2);磷素被果实和枝条带走量分别占输入总量的12.33%和2.55%,盈余率达85.12%(484.75 kg/hm^2);栖霞市氮、磷盈余量均超出环境安全的阈值,分别属于中风险和高风险范围。因此,在保证果园产量与品质的前提下,适当减少化肥使用量、逐步建立水肥一体化的果园施肥模式、提升果农科学的管理经验,应成为果园可持续发展的主攻方向。     

应用纹理分析方法在线监测苹果冻干含水率

在果蔬真空冷冻干燥过程中对果蔬物料含水率进行实时监测,可为冻干过程监控和优化提供依据。该文研究以冻干果蔬物料含水分图像纹理分析为技术手段,实现连续表达干燥过程中物料的含水率。试材选用苹果,采用环形光源和高速CCD组件,在冻干仓窗外分别采集原始苹果样本MA和经CuSO4溶液染色的苹果样本MB在一个完整冻干周期中表面含水纹理变化的动态图像,运用主成分分析法对图像均值等6个含水纹理特征指标进行统计分析,并对原始样本纹理特征的第一主分量与其含水率W1、染色样本含水纹理特征的第一主分量与其含水率W2、W1和W2分别进行非线性回归分析。结果表明,模型的决定系数达到0.9376、0.9289和0.9930,且显著性检验概率均<0.0001,模型检验极显著。同时,模型相对误差基本<3%。因此,由果蔬物料含水图像的纹理特征可实现含水率的在线监测。该方法不但为真空冷冻干燥加工过程控制探索一种利用水分图像处理方法进行水分在线监测的新方法,而且也可在其他干燥加工水分监测及过程控制中应用。