基于卷积神经网络的玉米叶片病虫害识别研究

玉米是中国重要的粮食、饲料和工业原料作物,但病虫害会严重威胁玉米的品质和产量,需开展玉米病虫害识别研究。该文主要基于ResNet18卷积神经网络,使用PlantVillage数据集中玉米叶片数据,针对玉米常见的普通锈病、灰斑病、大斑病和健康叶片开展玉米叶片病虫害图像识别研究。研究结果表明,玉米叶片病虫害识别模型准确率为98.05%,普通锈病、灰斑病、大斑病和健康叶片的召回率分别为100%、92.97%、99.22%和100%,针对4种类型叶片的精准率分别为100%、100%、100%和92.75%,F1分数为98.12%。模型能够较好识别玉米叶片病虫害类型,对于玉米病虫害的早期检测和防治具有重要意义。

Characterization and Genetic Analysis of Rumpled and Twisted Leaf Mutant(rtl1) in Rice

A rumpled and twisted leaf 1(rtl1) mutant was generated from a japonica cultivar Nipponbare by ethyl methanesulfonate treatment,which was characterized as rumpled and twisted leaf at the seedling stage.The F2 populations were constructed by crossing with indica cultivars TN1 and Zhefu 802,respectively.Genetic analysis demonstrated that the phenotype was controlled by a single recessive nuclear gene.The closely linked simple sequence repeat(SSR) marker RM1155 was obtained from bulked segregant analysis.Subsequently,sequence tagged site(STS) markers were developed using the published rice genome sequence.Finally,RTL1 was located between an STS marker T1591 and an SSR marker RM1359,at the distances of 0.48 cM and 0.96 cM,respectively.These results will facilitate the cloning of the target gene in further studies.

宁夏罗山不同森林群落叶功能性状及其环境响应机制

以罗山自然保护区内主要的森林群落类型(青海云杉纯林、山杨纯林、青海云杉×油松混交林、山杨×油松混交林)为研究对象,测定植物的叶面积(LA)、叶干物质量(LDMC)、比叶重(SLW)、叶碳含量(LCC)、叶氮含量(LNC)和叶磷含量(LPC)6种功能性状在地形因子和土壤因子的变化规律和变异特征,分析叶功能性状间的相互关系。探明植物功能性状与环境之间的关系,基于功能性状-环境相互关系揭示荒漠草原过渡带山地森林群落植物的生长对策和资源利用能力。结果表明,叶功能性状间存在极显著的相关性,4种不同森林类型种叶功能性状存在差异性,植物为适应不同的生境,采取不同的叶性策略来适应生境。青海云杉纯林中灌木层的Simpson指数、Shannon-Wiener指数和Margalef指数显著最低(P<0.05),草本层的物种多样性指数无显著差异,青海云杉纯林的Simpson指数显著最低,青海云杉纯林的Shannon-Wiener指数显著低于山杨纯林。4种森林群落所有样地内共出现林下植物55种,隶属24科43属。灌木层的优势种为华北紫丁香和黑果栒子;草本层的优势种为玉竹和薹草。土壤因子和海拔因子共同影响功能性状与物种多样性指标,有机质和有效磷与LA、LNC、LPC呈正相关关系,与LDMC、SLW、LCC呈负相关关系,海拔与LDMC呈正相关关系,与LA、LNC、LPC呈负相关关系。有机质、全氮、全磷与Simpson指数、Shannon-Wiener指数和Pielou均匀度指数呈正相关关系,海拔与Simpson指数、Shannon-Wiener指数、Pielou均匀度指数、Margalef指数均呈负相关关系。

板簧托对前轴性能影响的研究

针对某些铸造式板簧托会造成前轴管整体强度减弱的问题,通过对某种铸造式板簧托及冲压式板簧托的前桥进行有限元强度分析,得出了2种结构板簧托对前轴管应力的影响,进而得出此种铸造式板簧托前轴存在的问题在于焊接位置导致的前轴管局部受力集中。为进一步解决问题,提出了铸造式板簧托焊接位置及方式改为冲压式板簧托焊接结构,并对改进后的前轴管应力进行对比,得出2种结构应力结果基本吻合。

Higher leaf area through leaf width and lower leaf angle were the primary morphological traits for yield advantage of japonica/indica hybrids

The yield potential of japonica/indica hybrids(JIH)has been achieved over 13.5 t ha–1 in large-scale rice fields,and some physiological traits for yield advantage of JIH over japonica inbred rice(JI)and indica hybrid rice(IH)were also identified.To date,little attention has been paid to morphological traits for yield advantage of JIH over JI and IH.For this reason,three JIH,three JI,and three IH were field-grown at East China(Ningbo,Zhejiang Province)in 2015 and 2016.Compared with JI and IH,JIH had 14.3 and 20.8%higher grain yield,respectively,attributed to its more spikelets per panicle and relatively high percentage of filled grains.The advantage in spikelets per panicle of JIH over JI and IH was shown in number of grains on the upper,middle,and lower branches.Compared with JI and IH,JIH had higher leaf area through leaf width and lower leaf angle of upper three leaves,higher leaf area index and leaf area per tiller at heading and maturity stages,higher stem weight per tiller and K and Si concentrations of stem at maturity,higher dry matter weight in leaf,stem,and panicle at heading and maturity stages,and higher biomass accumulation after heading and lower biomass translocation from stem during ripening.Leaf width of upper three leaves were correlated positively,while leaf angle of upper three leaves were correlated negatively with biomass accumulation after heading,stem weight per tiller,and per unit length.Our results indicated that the grain yield advantage of JIH was ascribed mainly to the more spikelets per panicle and relatively high percentage of filled grains.Higher leaf area through leaf width and more erect leaves were associated with improved biomass accumulation and stem weighing during ripening,and were the primary morphological traits underlying higher grain yield of JIH.

Analysis and Simulation of Plant Type on Canopy Structure and Radiation Transmission in Rice

Three typical hybrid rice cultivars, together with three artificially modified plant types by the application of N fertilizer during the elongation of the two uppermost leaves were used to analyze how the plant type affected the layered leaf area and radiation transmission. Plant type factors, layered leaf area and radiation distribution were measured at the full heading, 10 d and 25 d after full heading stages, respectively. A model for calculating the layered leaf area from plant type factors was established and validated to determine the effects of plant type factors on the layered leaf area for the three hybrids. Furthermore, the relationship between layered leaf area and radiation transmission was established by using the radiation transmission model. The effects of the plant type factors on the radiation transmission for the three hybrids were evaluated by using this model. Finally, a method was established to describe the canopy structure, such as the layered leaf area index and the radiation distribution in the rice canopy.

Simulation of Canopy Leaf Inclination Angle in Rice

A leaf inclination angle distribution model, which is applicable to simulate leaf inclination angle distribution in six heights of layered canopy at different growth stages, was established by component factors affecting plant type in rice. The accuracy of the simulation results was validated by measured values from a field experiment. The coefficient of determination （R2） and the root mean square error （RMSE） between the simulated and measured values were 0.9472 and 3.93%, respectively. The simulation results showed that the distribution of leaf inclination angles differed among the three plant types. The leaf inclination angles were larger in the compact variety Liangyoupeijiu with erect leaves than in the loose variety Shanyou 63 with droopy leaves and the intermediate variety Liangyou Y06. The leaf inclination angles were distributed in the lower range in Shanyou 63, which matched up with field measurements. The distribution of leaf inclination angles in the same variety changed throughout the seven growth stages. The leaf inclination angles enlarged gradually from transplanting to booting. During the post-booting period, the leaf inclination angle increased in Shanyou 63 and Liangyou Y06, but changed little in Liangyoupeijiu. At every growth stage of each variety, canopy leaf inclination angle distribution on the six heights of canopy layers was variable. As canopy height increased, the layered leaf area index （LAI） decreased in all the three plant types. However, while the leaf inclination angles showed little change in Liangyoupeijiu, they became larger in Shanyou 63 but smaller in Liangyou Y06. The simulation results used in the constructed model were very similar to the actual measurement values. The model provides a method for estimating canopy leaf inclination angle distribution in rice production.

Performance and Analysis of a Model for Describing Layered Leaf Area Index of Rice

Layered leaf area index （LAIk） is one of the major determinants for rice canopy. The objective of this study is to attain rice LAI k using morphological traits especially leaf traits that affected plant type. A theoretical model based on rice geometrical structure was established to describe LAI k of rice with leaf length （Li）, width （Wi）, angle （Ai）, and space （Si）, and plant pole height （H） at booting and heading stages. In correlation with traditional manual measurement, the model was performed by high R2-values （0.95-0.89, n=24） for four rice hybrids （Liangyoupeijiu, Liangyou E32, Liangyou Y06, and Shanyou 63） with various plant types and four densities （3 750, 2 812, 1 875, and 1 125 plants per 100 m2） of a particular hybrid （Liangyoupeijiu）. The analysis of leaf length, width, angle, and space on LAI k for two hybrids （Liangyoupeijiu and Shanyou 63） showed that leaves length and space exhibited greater effects on the change of rice LAI k . The radiation intensity showed a significantly negative exponential relation to the accumulation of LAI k , which agreed to the coefficient of light extinction （K）. Our results suggest that plant type regulates radiation distribution through changing LAI k . The present model would be helpful to acquire leaf distribution and judge canopy structure of rice field by computer system after a simple and less-invasive measurement of leaf length, width, angle （by photo）, and space at field with non-dilapidation of plants.

摘叶对不同株型木薯品种源、库器官特征的影响

为明确摘叶对不同株型木薯品种源、库器官特征的影响,以紧凑型品种‘华南205’‘、桂热4号’和伞型品种‘华南12号’、‘华南15号’为试验材料,设计4个摘叶处理和不摘叶处理,研究木薯植株形态、干物质生产、氮素积累量和叶片营养物质的差异。结果表明,随着源叶数的减少,单株块根产量、成熟期植株的干物质量和氮素积累量随之降低。植株保留的源叶数越少,摘叶比越大,库/源比越小,株高变矮,茎秆和薯粗变细,薯长变短。随着源叶数的增多,叶片可溶性总糖含量随之呈增加的趋势,叶片蔗糖和总淀粉含量随之呈先增后降的趋势。随着摘叶时间的递进,叶片可溶性总糖和总淀粉含量随之增加,而蔗糖含量随之下降。紧凑型品种叶片可溶性总糖、蔗糖和总淀粉含量均高于伞型品种。研究发现,木薯植株保留的源叶数过少,摘叶比大,植株干物质量和氮素积累量降低,植株和块根的生长受限,块根产量下降。研究以期为高纬度区域木薯高产栽培提供理论支撑。

山东省不同类型烟叶质量特征差异及原因分析

为明确山东省不同类型烟叶质量特征差异及原因,本研究连续3年采集山东烟区烟叶样品,分析不同类型烟叶物理特性、化学成分和感官评吸质量,通过相关分析,解析影响评吸质量的主要因素。结果表明:中、上部叶物理特性方面,香吃味型最好,香味型居其次,吃味型最低,表现在部分吃味型中、上部叶发育过旺,叶片大小、单叶重、叶面密度超出适宜范围。化学成分方面,香味型中部叶化学成分协调性最好,香吃味型中部叶居于其次,吃味型中部叶最低,主要是部分吃味型烟叶淀粉、氯离子含量高且钾氯比低;3种类型上部叶化学成分协调性基本一致。感官评吸质量方面,中部叶质量得分为香味型最高,香吃味型其次,吃味型最低,差异主要体现在香气质、余味、杂气、刺激性等指标;3种类型上部烟叶评吸质量差异不明显。相关分析表明,叶宽对中部叶评吸质量产生显著负效应,叶长、叶片厚度对上部叶评吸质量产生显著负效应;钾和钾氯比对中部叶评吸质量产生显著正效应,而还原糖、硫、氯离子、纤维素、半纤维素产生显著负效应;还原糖、总糖对上部叶评吸质量产生显著正效应,而烟碱、纤维素产生负效应。吃味型中部叶评吸质量较低,与其叶片发育过旺及硫、氯含量较高有关;3种类型上部叶评吸质量无显著差异,但其原因各有不同,香味型、香吃味型上部叶虽然钾含量高、氯离子含量低,但总糖含量低、烟碱含量高,糖碱比协调性变差,而吃味型上部叶钾含量低、氯离子含量高,总糖含量高、烟碱含量低,糖碱比协调。因此,需针对不同类型烟叶的问题,采取相应农艺措施,提高烟叶质量。

育苗容器对紫叶紫薇容器苗生长、开花及生理的影响

【目的】探讨育苗容器类型和规格对紫叶紫薇容器苗生长、开花及生理的影响,筛选出培育紫叶紫薇容器苗的适宜育苗容器,为高效培育紫薇容器苗提供理论依据。【方法】以紫叶紫薇优良新品种‘丹红紫叶’2年生苗木为研究材料,选用黑色塑料营养杯(C1)、白色无纺布美植袋(C2)、黑色控根容器(C3)3个类型以及16×16(D1)、21×21(D2)、25×25(D3)3种规格(直径×高,cm),组成9种容器组合处理,测定不同处理容器苗生长、开花及生理指标。【结果】(1)不同育苗容器处理对紫叶紫薇容器苗的生长、开花及生理指标均影响显著,同一容器类型苗木的生长、根系、生物量、花期、花径、花序、可溶性蛋白含量、可溶性糖含量、相对叶绿素含量、净光合速率、气孔导度、蒸腾速率等指标均随着育苗容器规格的增大而显著增加。(2)地径生长量、总根长、总根表面积、总根体积、根尖数、地上部干质量、地下部干质量、总干质量、花期均以C3D3处理最大,比最小的C1D1处理分别显著提高817.12%、108.12%、94.60%、75.66%、144.14%、135.67%、228.45%、164.65%、34.48%;苗高生长量、冠幅生长量、叶面积、花序长和宽均以C1D3处理最高,比最低的C1D1处理分别显著提高116.05%、81.39%、114.95%、70.44%和65.79%;相对叶绿素含量、水分利用效率均以C3D3处理最大,可溶性蛋白和可溶性糖含量、净光合速率、气孔导度均以C1D3处理最高;胞间CO_(2)浓度、水分利用效率在各处理之间无显著差异。(3)各处理隶属函数法综合评价得分排序为:C3D3>C1D3>C2D3>C3D2>C2D2>C1D2>C2D1>C3D1>C1D1。【结论】黑色控根容器在地径生长量、根系生长指标、生物量、花期和花径、叶绿素相对含量及净光合速率方面表现最佳;紫叶紫薇2年生苗的最适宜育苗容器是直径25 cm、高25 cm的黑色控根容器。

4种裂叶类型五指毛桃果实中氨基酸组成比较及营养价值评价

使用高效液相色谱仪检测4种裂叶五指毛桃果实中氨基酸含量,分析比较其氨基酸种类的组成成分,并对其营养价值进行评价。结果表明,4种裂叶五指毛桃果实中均含有被检测的17种氨基酸,三裂叶五指毛桃果实中氨基酸总量最高,为122.80 mg/g,而全缘叶五指毛桃果实中氨基酸总量最低,仅为83.27 mg/g,必需氨基酸占总氨基酸的38.94%〜42.77%,精氨酸、亮氨酸和谷氨酸为含量最高的三种氨基酸。五指毛桃果实中芳香类氨基酸、甜味氨基酸及鲜味氨基酸含量丰富,平均含量分别为9.75、14.21和26.55 mg/g;药用氨基酸含量占总氨基酸比例的51.92%〜57.90%;氨基酸比值系数(RC)均接近1,氨基酸比值系数分(SRC)介于88.64〜96.02之间,4种裂叶五指毛桃果实品质均较好。综上所述,五指毛桃果实中氨基酸含量丰富,是高药用价值的植物蛋白来源。该结果为五指毛桃果实营养价值评价、品种选育及保健食品的开发提供理论指导。

长白山区4种针叶林有效叶面积指数遥感精细反演及空间分布规律

[目的]研究快速、准确、宏观获取不同森林类型有效叶面积指数(LAI_(e))的方法,探讨其空间分布规律,为中小尺度森林LAI_(e)遥感产品的开发提供新思路,为林业精细化监测和森林生态系统碳水循环模拟提供科学可靠的技术手段。[方法]以长白山为研究区,基于Sentinel-2A多光谱影像,运用三维卷积神经网络提取研究区4种针叶林型(长白落叶松、樟子松、红松和红皮云杉)的空间分布;采用区分林型和全样本2种方案,分析样地实测LAI_(e)与7种植被指数(增强植被指数、反红边叶绿素指数、改进简单植被指数、归一化水体指数、归一化植被指数、土壤调节植被指数、简单植被指数)的相关关系;利用各林型对应的最优植被指数,构建区分林型和全样本LAI_(e)与植被指数的回归模型,并基于验证样本数据对比区分林型模型、全样本模型和PROSAIL模型在LAI_(e)反演中的精度表现;结合地理因子分析4种针叶林型LAI_(e)空间格局及变化规律。[结果]所有样本组中7种植被指数与相对的LAI_(e)均存在极显著相关关系(P<0.01),除增强植被指数(EVI)与红松LAI_(e)、简单植被指数(SR)与红皮云杉LAI_(e)外,相关系数均大于0.6,但组间LAI_(e)与不同植被指数相关性具有较大差异;红松、长白落叶松和樟子松LAI_(e)与反红边叶绿素指数(IRECI)相关性最高,红皮云杉、红松LAI_(e)分别与EVI、改进简单植被指数(MSR)相关性最高;4种不同林型模型比全样本模型的R2提高12.7%以上,RMSE降低34.5%;研究区内4种林型LAI_(e)范围在0.37~5.86之间,平均LAI_(e)由高至低依次为红松、长白落叶松、樟子松、红皮云杉。红松对海拔、坡度、坡向的变化最为敏感,红皮云杉、樟子松次之,长白落叶松最小。[结论]不同林型LAI_(e)与遥感植被指数的相关程度存在明显差异,区分林型构建回归模型能够提高LAI_(e)反演精度;区分林型后拟合的线性模型精度整体较PROSAIL模型和全样本模型更高,但LAI_(e)高值区域没有PROSAIL模型表现稳定;4种针叶林型LAI_(e)对地理因子变化的反应差异较大。本研究可为精细区分森林类型的中小尺度针叶林LAI_(e)遥感反演研究提供参考。

优化类型定位背景下高职新型教材开发的实践样态与框架优化

新型教材建设是现阶段撬动职业教育课程与教学改革、实现优质资源共享、提升人才培养质量、推动高质量发展的重要基础。当前高职院校的新型教材开发实践初见成效,但在概念认知力、开发能力、开发规范性、改革可持续性等方面存在问题。职业教育的类型属性是新型教材开发的逻辑起点,开发高质量的新型教材是现阶段优化职业教育类型定位的应有之义。类型属性下的高职新型教材开发应注重模式应用的适切性,内容选择的职业性、实践性、先进性与思想性,内容组织的重构逻辑、工作逻辑与整合逻辑,以及呈现方式的纸数融合化。基于实然性问题样态与应然性基本遵循,可从健全工作机制、改进技术路径、细化管理策略等维度探索优化高职新型教材开发的实践框架。

基于GC-O-MS评价芽叶型黄茶的香气类型及其关键香气组分的呈香贡献

为全面探析芽叶型黄茶的特征香气成分,采用顶空固相微萃取(HS-SPME)结合气相色谱-质谱联用(GC-MS)和气相色谱-嗅觉(GC-O)技术,并辅以感官审评及化学计量学方法,对芽叶型黄茶香气物质进行分析。研究发现,芽叶型黄茶以清甜香为主,通过感官审评细分为鲜嫩香、栗甜香及甜香3类。利用GC-MS共检测到119种挥发性成分,并通过聚类分析(HCA)与正交偏最小二乘法判别分析(OPLS-DA)的变量投影重要性(VIP)筛选不同香型间的候选差异挥发物,采用相对香气活度值(ROAV)与GC-O分析明确了芽叶型黄茶的关键香气化合物。芽叶型黄茶有60种ROAV>1的特征香气成分,其中鲜嫩香型以醛类为主导,栗甜香型醇类占据主导,甜香型中2-乙基-5-甲基吡嗪与2,3-二乙基-5-甲基吡嗪贡献显著。嗅闻结果显示,苯乙醇是黄茶清甜香属性的重要成分;鲜嫩香的关键呈香物质包括苯乙醇、茉莉酮、苯乙烯、芳樟醇、壬醛等;栗甜香则主要来源于庚醛、β-大马士酮、2-正戊基呋喃等成分;甜香以吡嗪类与醛类为主,呈现出独特的甜香与焦糖香气。研究揭示了芽叶型黄茶香气成分的多样性,并深入阐明了各香型间的香气差异与成因。

甘肃省玉米大斑病菌交配型组成及遗传多样性分析

为明确甘肃省玉米大斑病菌交配型组成及遗传结构,利用交配型鉴定特异引物对采自该省不同地区的玉米大斑病菌进行交配型测定,并采用简单序列重复区间扩增多态性(ISSR)分子标记技术对供试菌株进行遗传多样性分析。结果表明:甘肃省玉米大斑病菌主要包括3种交配型,即A交配型、a交配型和Aa交配型,其比例约为8∶8∶1。24条ISSR引物共扩增出136条条带,平均每个引物扩增出5.67条,其中多态性条带134条,多态性条带比例为98.53%。利用PopGen 32软件分析发现甘肃3个地区玉米大斑病菌间的亲缘关系更近,遗传距离均小于0.08;陇南地区与陕西省的菌株有更高的遗传相似度,为0.9338;用NTSYS-pc软件对陇东地区的菌株聚类分析,发现ISSR类群的划分与菌株交配型间并没有直接关系。说明玉米大斑病菌遗传类群和交配型之间无明显相关性,但与菌株地理来源有一定的相关性。

灌丛群落叶功能型及其与凋落物水分涵养性能的关系——以广西三种典型灌丛群落为例

牡荆、红背山麻杆和羊蹄甲群落是三种在广西壮族自治区具有较为重要水土保持功能的典型灌丛。通过野外勘察选择了受干扰程度较低的群落作为研究样地。通过测定样方中优势物种的叶功能性状和凋落物的水分涵养特征,揭示了灌丛群落的叶功能型及其与凋落物水分涵养性能的关系,以求更好地发挥灌丛在区域退化生态系统中生态恢复和水土保持的作用。研究结果表明,(1)三种灌丛群落的叶功能性状有着十分明显的差异,群落的叶功能型因此而分化形成了以羊蹄甲为代表的低干物质、低有机质与高比叶面积(低LOMC+LDMC-高SLA)的类型,以及以红背山麻杆群落和牡荆灌丛群落为代表的高干物质、高有机质与低比叶面积(高LDMC+LOMC-低SLA)的类型。后者因叶片磷含量(LPC)的不同,再进一步分化。(2)三种灌丛群落凋落物的水分涵养性能由于群落凋落物的水分涵养特征存在显著差异出现分化。红背山麻杆和牡荆灌丛的凋落物蓄积量(LS)和自然含水率(NWC)显著高于羊蹄甲灌丛,而它们的最大持水率(MWHR)则低于羊蹄甲灌丛。红背山麻杆和牡荆灌丛的最大拦蓄量(MIC)和有效拦蓄量(EIC)因此而显著高于羊蹄甲灌丛。(3)灌丛群落的叶功能性状SLA、LDMC、LOMC、LPC等分别与MIC和EIC等水分涵养性能特性存在显著相关性。叶功能型为低LDMC+LOMC-高SLA的羊蹄甲灌丛群落具有较低的水分涵养性能,而叶功能型为高LDMC+LOMC-低SLA的红背山麻杆和牡荆灌丛群落具有较高的水分涵养性能。为了提高生态系统的水土保持功能,在进行退化生态系统生态恢复时应尽可能选择叶功能型为高LDMC+LOMC-低SLA的群落类型。

1+X证书制度下高职教育新形态教材建设路径

进入教育改革关键期,1+X证书制度加速推动高等职业教育教材的结构性变革。作为在1+X证书制度下的高等职业教育教材应然样态,新形态教材表现出教材呈现形式多样性、教材应用场景交互性、教材建设团队协同性等多维特征。在1+X证书制度下,高职教育新形态教材以活页式教材为“新样式”、工作手册式教材为“新指导”、融媒体教材为“新载体”,贯穿新形态教材开发全过程。因此,应设定新形态教材修订标准、培育师生新形态教材高水平应用能力、构建书证融通特色化教材体系、建立新形态教材监管和评价制度,为推进高职教育新形态教材建设进程提供助力。

毛竹及其2种变异类型叶结构特征研究

【目的】为了揭示毛竹(Phyllostachys edulis)及其2种变异类型厚竹(Ph.edulis‘Pachyloen’)、八字竹(Ph.edulis‘Bicanna’)叶的功能差异,及其与竹秆形态特征之间的关系。【方法】采用石蜡制片法结合显微技术观察叶片的解剖结构特性,构建其三维形态结构图,利用蒽酮比色法测定相关生理指标。观测各竹种竹秆的秆形因子变化规律,并进一步分析了叶结构与秆形特征之间的关系。【结果】毛竹叶面积、泡状面积、维管束面积更大,且具有更厚的下表皮、叶片、叶肉,其叶的结构更有利于光合作用;毛竹和厚竹叶的结构和秆形特征密切相关。【结论】毛竹叶片结构特征更有利于光合作用,积累更多物质用于竹秆生长,且毛竹和厚竹可通过改变叶片和秆形特征来权衡资源,从而维持自身正常生长。该文为进一步揭示竹子生长发育机制奠定基础,并为竹子新种质创制提供科学依据。

拉力式甘蔗剥叶机剥叶元件作业参数研究

拉力式甘蔗剥叶机剥叶元件合理的作业参数可有效改善剥叶机构剥叶质量,为降低含杂率,建立甘蔗剥叶过程仿真模型,采用单因素仿真试验分析剥叶辊筒转速、剥叶角度及剥叶辊筒中心距(剥叶元件交错深度)对蔗叶所受峰值应力的影响规律和蔗叶的剥离断裂情况,确定参数范围;在仿真分析基础上采用中心组合法进行多因素样机试验,探究3个作业参数对含杂率的影响规律并得出最佳作业参数:剥叶角度120°、剥叶辊筒中心距77.2 mm、剥叶辊筒转速128 r/min、最小含杂率为2.03%,样机试验验证所得含杂率结果为2.09%。为改善拉力式甘蔗剥叶机剥叶效果、提高作业适应性提供参考。