Induces Resistance Against Fusarium and Pink Rots by Acibenzolar-S-Methyl in Harvested Muskmelon (cv.Yindi)

Acibenzolar-S-methyl （ASM） is a chemical activator of systematic resistance in many plants. The effect of preharvest and postharvest application of ASM was evaluated for its ability to induce resistance in muskmelon fruit. The results indicated that 50 and 100 mg L^-1 ASM or 1 mL L^-1 imazalil at 1 week or 1 day before harvest were effective in reducing the lesion area with 100 mg L^-1 ASM the most effective. No treatment inhibited the infection rate. The postharvest results showed that 50 and 100 mg L^-1 ASM, and 0.1 mL L^-1 imazalil were effective in reducing the lesion area with 100 mg L^-1 ASM the most effective. No treatment inhibited the infection rate. There was a clear time-dependent response of the fruit to postharvest ASM treatment, in which treatments applied 1, 3, and 5 day before inoculation provided the best results. ASM did not demonstrate any fungicide effect in vitro and suppressed lesion area in treated muskmelons, indicating that disease resistance was induced. The protection of ASM was associated with the activation of peroxidase （POD） in treated muskmelons.

Control of Postharvest Fusarium Rot and Trichothecium Rot in Harvested Muskmelon (cv. Yindi) by Harpin

Preharvest and postharvest application of Harpin was evaluated for its ability to induce resistance in muskmelon fruit and control rots. Preharvest treatments were 30 mg L^-1, 60 mg L^-1 Harpin or 1 mg L^-1 Imazalil either I week or I day before harvest. The CK was untreated. Fruit were then inoculated with Fusarium semitectum or Trichothecium roseum 48 h after harvest, and stored at 23± 1℃, RH （relative humidity） 50-60% for 4 d. All treatments were effective in reducing the lesion area with 60 mg L^-1 Harpin the most effectively. No treatments inhibited infection rate. Postharvest treatment was fruit dips of 30 mg L i, 60 mg L^-1 Harpin, 0.1 mg L i Imazalil. Fruit were inoculated with F. semitectum or T. roseum 24, 72, 120 or 168 h after treatment, and stored at 23 ± 1℃, RH 50-60% for 4 days. All treatments were effective in reducing the lesion area with 60 mg L^-1 Harpin the most effectively. No treatments inhibited the infection rate. Postharvest Harpin treatment induced the peroxidase activity increase, peroxidase activity reached maximum after 8 d and the activation lasted at least 10 d.

Effects of thiamine on Trichothecium and Alternaria rots of muskmelon fruit and the possible mechanisms involved

The effects of thiamine against pink and black spot rots caused by Trichothecium roseum and Alternaria alternata and modulation on the metabolism of reactive oxygen species （ROS） and phenylpropanoid pathway were investigated in this paper. In vitro test indicated that thiamine significantly inhibited mycelia growth and spore germination of T. roseum and A. alternata. Thiamine at 100 mmol L-1 effectively inhibited lesion development of muskmelon fruit inoculated with T. roseum or A. alternata, enhanced production rate of O2; and H2O2 content, activities of catalase （CAT）, ascorbate peroxidase （APX） and glutathione reductase （GR） in muskmelon fruit. Thiamine also affect phenylpropanoid pathway in muskmelon fruit by increasing the activities of phenylalanine ammonia lyase （PAL） and peroxidase （POD）, the content of total phenolic compounds, flavonoids and lignin. These results suggest that the effects of thiamine on pink and black spot rots in muskmelon fruits are associated with its direct fungitoxic against the pathogens and the modulation of O2- and H2O2 production, elimi- nating enzymes and phenylpropanoid pathway.

Postharvest ASM or Harpin Treatment Induce Resistance of Muskmelons Against Trichothecium roseum

Induced resistance was studied in muskmelons （cv. Yindi） inoculated Trichothecium roseum with postharvest 1,2,3- benzothiadiazole-7-carbothioic acid S-methyl ester （ASM） （100 mg L^-1） or harpin （50 mg L^-1） treatment. Both ASM and harpin significantly reduced lesion diameter in inoculated fruit. Lesion diameter was limited in the treated and untreated halves of the same fruit, indicating that the local and systemic resistance was induced. Inhibiting efficacy of elicitors lasted 7 and 5 days in the treated and untreated halves. The resistance increased by the chemicals was associated with the activation of peroxidase （POD） and chitinase （CHT）. The elicitors induced a significantly and progressively increasing activity of POD and CHT in the treated and untreated halves, and the activation lasted at least 5 days. The activities of POD isoenzymes increased in the treated fruit. However, no new enzyme band was found in the treated and untreated halves.

A Study of Oxalate-Induced Systemic Resistance of Muskmelon to Squash Mosaic Virus

By treatment with oxalate muskmelon cultivar “Wangwenxiang”, which is sensitive to squash mosaic virus (SqMV), develops systemic resistance to SqMV significantly. The challenge inoculation experiments indicate that the symptom of oxalate treated plants gets much slighter, the virus content is only 4% reduced to. The peroxidase activity increases by five times, three new isoperoxidases are induced, and lignin content increases by 82.9%. These results indicate that oxalate induces systemic resistance of muskmelon to SqMV while it induces increase of peroxidase activity, new isoperoxidases and content of lignin in the plants treated with oxalate.

Isolation and Identification of Main Fungal Pathogens in Muskmelon in Open Field of Hubei Province in Summer

Fungal diseases often occur seriously in muskmelon in open field of Hubei Province in summer, especially in continuous cropping pattern, resulting in great economic losses. In this study, the pathogens of main fungal diseases in muskmelon in open field of Hubei Province were isolated, and they were identified by morphological and molecular techniques. The results showed that muskmelon fusarium wilt is a major disease in muskmelon in open field of Hubei Province in summer, and its pathogen was confirmed to be Fusarium oxysporum. In future studies, one pair of specific primers would be designed to detect different pathogenic races of Fusarium oxysporum so as to accelerate the detection and to shorten the detection time,thereby proving guidance for actual production.

甜瓜翠雪7号高质量种子生产及加工技术研究

甜瓜种子质量决定出苗率、出苗整齐度和幼苗的健壮生长,继而影响甜瓜的产量以及品质。随着甜瓜育苗向集约化和规模化方向的发展,育苗场或者种植户对高质量甜瓜种子的需求也越来越高。基于对甜瓜种植密度、授粉数量、单株坐果数和采收时间等因素的分析以及基于木酢液可破除种子休眠特性,研究甜瓜品种翠雪7号高质量种子生产和加工处理技术,以期为厚皮甜瓜高质量种子生产提供借鉴。

农杆菌介导的厚皮甜瓜遗传转化体系的建立

【目的】遗传转化是进行基因功能验证的重要手段,构建较为完善、高效的厚皮甜瓜遗传转化体系,为基因功能验证和厚皮甜瓜种质改良提供技术支撑。【方法】以厚皮甜瓜B8为材料,用携带植物双元表达载体pQY002005的根癌农杆菌介导转化B8子叶诱导再生,通过探究影响甜瓜遗传转化过程中的重要因子的作用,建立以B8为基础的甜瓜遗传转化体系。【结果】以正常光周期培养3 d的无菌苗子叶节为外植体,对其进行微刷+10 s超声处理可提高农杆菌侵染效率,荧光芽获得率达29.6%;压力85 kPa的2次5 min的抽真空侵染方式(间隔1 min)侵染效果较佳;4 mg·L^(-1)的Basta较适宜筛选抗性植株。利用以上方法,单次转化120个子叶节外植体,可获得31个再生荧光芽,17株生根苗,通过PCR检测确定8株阳性苗,阳性率达58.8%,阳性植株获得率为6.7%。【结论】成功建立了以B8为材料的甜瓜高效遗传转化体系,为甜瓜关键基因功能验证和种质精准改良提供技术支持。

甜瓜细菌性果斑病病原菌的分离鉴定与抗性种质资源的筛选

以黑龙江省大庆市大同区采集的甜瓜细菌性果斑病病叶及研究室保存的22份甜瓜材料为试材,采用病原菌的分离纯化、形态学鉴定、致病性鉴定、分子鉴定及抗病性鉴定等方法,研究了大同区引起薄皮甜瓜细菌性果斑病的主要病原菌菌株类群及甜瓜材料对该菌株的抗病表现,以期为甜瓜细菌性果斑病的防治提供参考依据。结果表明:通过分离、纯化从发病植株叶片上获得了1株细菌性果斑病病原菌,命名为HLJ23;该菌株接种到健康叶片后发病症状与甜瓜细菌性果斑病的症状相似;进一步通过分子鉴定确定该菌株为燕麦嗜酸菌西瓜亚种(Acidovorax citrulli)亚群I型菌株;研究室保存的22份甜瓜材料中感病材料多于抗病材料,其中8份表现抗病,14份表现感病。综上所述,‘1185’和‘258’是黑龙江省大庆市大同区薄皮甜瓜细菌性果斑病病原菌的优势种群。

9种杀菌剂对甜瓜细菌性果斑病的田间防效

为筛选高效低毒且对甜瓜细菌性果斑病防效较佳的农药试剂,以砂地甜瓜为研究对象,对9种高效低毒杀菌剂进行了田间筛选试验。结果表明,供试的9种药剂对甜瓜细菌性果斑病均具有一定的防治作用。77%硫酸铜钙可湿性粉剂500倍液第1次和第2次喷药7 d后防效均在70%以上,且第2次防效比第1次上升1.55个百分点,防治效果最佳。建议在白银市甜瓜果斑病防治中优先选用77%硫酸铜钙可湿性粉剂500倍液喷雾防治。

弱光胁迫对不同甜瓜品种果实生理特性的影响

【目的】为揭示弱光胁迫对不同品种甜瓜果实主要品质特征的影响。【方法】研究‘西洲蜜1号’、‘早皇后’、‘伽师’3个甜瓜品种在不同光照条件(100%、42%、23%透光率)下,其果实不同部位(果梗、果基、果肉)碳水化合物、类胡萝卜素和叶绿素含量在不同发育时期(花后0、3、7、14、21、35、40、60 d)的变化。【结果】甜瓜果实淀粉、蔗糖、还原糖含量在果实发育过程中不断增加,且在成熟期(花后35 d)含量最高,其中‘西洲蜜1号’淀粉含量最高(10.835%),‘伽师’淀粉含量最低(8.342%)。3个甜瓜品种果肉和果基部分的蔗糖含量比果梗高,但还原糖含量无差异;类胡萝卜素和叶绿素含量在果实发育过程中增加,但在完熟期(花后60 d)下降。弱光胁迫显著降低甜瓜果实碳水化合物含量,增加类胡萝卜素和叶绿素含量,其中透光率23%处理影响最为显著,‘西洲蜜1号’甜瓜淀粉、蔗糖、还原糖含量最高降低了32.3、29.87、28.02,胡萝卜素、叶绿素含量增加了19.47、13.98%;‘早皇后’甜瓜淀粉、蔗糖、还原糖含量最高降低了32.63、25.09、20.24%,胡萝卜素、叶绿素含量增加了54.74、21.06%;‘伽师’甜瓜淀粉、蔗糖、还原糖含量最高降低了41.08、32.39、39.1%,胡萝卜素、叶绿素含量增加了55.20、31.79%。与‘西州蜜1号’和‘早皇后’甜瓜相比,‘伽师’甜瓜的淀粉、叶绿素含量最低,蔗糖、还原糖含量最高,弱光胁迫下其淀粉、蔗糖、还原糖量下降最为显著,类胡萝卜素和叶绿素含量增加最为显著,表明‘伽师’甜瓜受弱光胁迫影响最大,耐弱光性最差。【结论】弱光胁迫会降低甜瓜果实的商业品质,透光率越低品质降低越严重,而‘伽师’甜瓜对弱光胁迫最敏感。

基于多源多维数据融合分析的新疆甜瓜产地溯源研究

为实现新疆县市级地理尺度间甜瓜原产地溯源,本研究以新疆15个县市主产区的239份甜瓜样本为对象,分析样本稳定同位素、多元素、^(1)H核磁波谱特征;通过偏最小二乘判别分析建模提取多源数据中的主要贡献变量。结果表明,δ^(2)H、Al、P、Na、δ^(18)O和^(1)H核磁共振波谱中化学位移(δ)为2.5528和2.5253时的响应信号为最重要的判别变量(VIP>1);单独应用稳定同位素及多元素、核磁共振波谱建模,总体判别准确度分别为85.8%和72.8%,难以满足溯源应用的要求;多源多维数据融合建模可提升甜瓜判别准确度至95.8%,能够实现县市级微观地理尺度间的新疆甜瓜溯源。本研究可为新疆甜瓜原产地确证与地理标志产品品牌保护提供技术支持。

单一及组合引发剂对甜瓜种子萌发及幼苗生长的影响

以宁夏地区甜瓜主栽品种花兰柿老化种子为材料,选用3种引发剂(5 g·L^(-1)CaCl_(2)、2 g·L^(-1)MnSO_(4)·H_(2)O、1.25 g·L^(-1)水溶性壳聚糖)对甜瓜种子进行单一及组合渗透引发处理,探讨不同种类引发剂对甜瓜种子萌发及幼苗生长的影响,筛选最优的引发剂。标准发芽试验结果表明:单一和组合引发剂处理均能显著促进老化甜瓜种子发芽,其中,组合引发剂5 g·L^(-1)CaCl_(2)+2 g·L^(-1)MnSO_(4)·H_(2)O处理的甜瓜种子活力指数显著高于对照和其他处理。穴盘育苗结果表明:组合引发剂可提高甜瓜幼苗质量,显著增加幼苗的茎粗、总鲜质量、总干质量和壮苗指数,组合引发剂5 g·L^(-1)CaCl_(2)+2 g·L^(-1)MnSO_(4)·H_(2)O(T4)和5 g·L^(-1)CaCl_(2)+1.25 g·L^(-1)水溶性壳聚糖(T5)处理的壮苗指数分别是对照CK1的2.00倍和1.89倍。T5处理对幼苗叶片光合色素含量提升幅度最大,幼苗根系活力最高。主成分分析筛选结果表明T5处理效果最佳。本研究筛选出的组合引发剂能有效改善老化甜瓜种子活力,促进幼苗生长,增强幼苗素质,可为甜瓜高质量集约化育苗提供技术支持。

不同甜瓜品种遗传转化再生体系的建立与基因编辑植株的快速获取

【目的】研究不同甜瓜品种遗传转化再生体系的建立与基因编辑植株的快速获取。【方法】选用巴吾顿、老汉瓜、其里甘、新密杂11号(86-1)4个甜瓜品种的子叶为外植体,通过农杆菌介导法侵染甜瓜子叶,采用组织培养法建立老汉瓜的遗传转化再生体系,运用PCR法检测获取基因编辑植株。【结果】从4个甜瓜品种中筛选出老汉瓜为优势品种作为外植体,在MS+6-BA 1.0 mg/L+NAA 0.05 mg/L培养基预培养2 d和共培养3 d,在MS+6-BA 1.0 mg/L+NAA 0.05 mg/L+潮霉素5 mg/L+头孢霉素250 mg/L筛选培养基上继续培养7 d,在MS+6-BA 1.0 mg/L+NAA 0.05 mg/L+潮霉素5 mg/L+头孢霉素250 mg/L的不定芽诱导培养基上培养1~2周可见长出的小芽,将诱导芽分别放置于不加潮霉素和加潮霉素的芽伸长培养基上培养,诱导芽在不加潮霉素的芽伸长培养基上的生长速度比加潮霉素的培养基生长快,可使芽生长至2叶苗期缩短3周,在无菌环境下剪去一个芽提取DNA,并采用RT-PCR方法检测获得21株转化植株。【结论】筛选出基因编辑植株嫩芽,不加潮霉素的芽伸长培养基可将获得基因编辑植株周期缩短3周。

无花果叶提取液复合保鲜膜的研制及其在甜瓜保鲜上的应用

【目的】研究一种无毒安全、绿色环保、廉价易得的植物源抑菌材料,并在甜瓜贮藏与保鲜中应用,为无花果叶提取液复合保鲜膜在甜瓜上的应用提供参考。【方法】优化具有抑菌效果的植物源材料无花果叶提取液的提取工艺,采用响应面法优化乙醇浓度、超声时间、料液比并分析对无花果叶提取液总黄酮取得率的影响。采用十字交叉法测定提取液对甜瓜采后主要病原菌镰刀菌、链格孢的抑菌效果,并将无花果叶提取剂与被膜剂海藻酸钠,抗氧化剂柠檬酸,助剂蔗糖酯进行复合,采用正交法优化各制剂对贮藏期甜瓜腐烂率和失重率的影响。【结果】获得无花果叶提取液的最佳提取工艺参数:乙醇体积百分比为79.73%、超声时间为36.81 min、料液比为1∶24。无花果叶提取液复合膜保鲜剂的最佳组成配方为80 mg/mL无花果提取液+1.5%海藻酸钠+500 mg/L柠檬酸+0.5%蔗糖酯。【结论】无花果叶提取液在抑制甜瓜采后主要病原真菌上效果显著,无花果叶提取液复合保鲜膜在减少甜瓜贮藏期腐烂率和失重率降低上效果明显,可作为甜瓜贮藏保鲜的新型绿色的植物源保鲜材料运用于甜瓜生产中。

1-MCP复合杀菌剂对西州蜜甜瓜常温贮藏品质的影响

为了探究不同保鲜剂复合杀菌剂对甜瓜的保鲜效果,以西州蜜甜瓜为试验材料,研究了抑霉唑硫酸盐、ClO2、咪鲜胺、1-MCP、1-MCP复合抑霉唑硫酸盐和无菌水对甜瓜常温贮藏下品质的影响。结果表明,与对照无菌水相比,所有保鲜剂均可显著抑制甜瓜采后腐烂与失重,维持果实硬度和可溶性固形物含量,提升贮藏品质。1-MCP与1-MCP复合杀菌剂处理可显著抑制西州蜜果实的呼吸速率和乙烯释放速率,呼吸峰值较对照无菌水分别降低43.7%和37.5%,乙烯释放峰值较对照无菌水分别降低47.9%和53.7%,呼吸峰值和乙烯释放峰值出现时间均推迟3 d。其中1-MCP复合杀菌剂对果实可滴定酸和Vc含量保持效果显著,与对照无菌水相比,可滴定酸含量提高40.0%,Vc含量提高38.2%,对西州蜜甜瓜的保鲜效果最好。

种植模式和留瓜节位对大棚厚皮甜瓜光合特性及产量品质的影响

以厚皮甜瓜‘西州蜜25号’为试验材料,于临沂设施农业气象试验基地温室大棚内开展双因素裂区试验,设置2种种植模式(垄上单行D1和垄上双行D2)和3种留瓜节位(11-12节位R1、13-14节位R2和15-16节位R3)共6个处理,测定植株叶面积、光合参数、产量构成因素及果实品质,探究不同种植模式和留瓜节位对大棚厚皮甜瓜光合特性、产量及品质的影响。结果表明:(1)垄上单行种植模式光合效率高于双行种植模式,单行种植模式下甜瓜果实果径、单果重和可溶性糖含量较双行种植模式分别显著增加2.4%、11.1%和9.5%(P<0.05)。留瓜节位高低对植株营养生长和生殖生长调节作用明显,R2处理植株光合特性、果长、果径及单果重均表现最佳,单果重分别较R1、R3处理增加9.41%和14.73%(P<0.05)。留瓜节位对甜瓜果实品质影响极显著(P<0.01),R1处理下可溶性糖含量最高,R2处理糖酸比最大,R3处理VC和可滴定酸含量最高。(2)种植模式和留瓜节位交互作用对厚皮甜瓜叶面积、SPAD及Pn、Ci、Gs、Tr影响显著(P<0.05),至成熟前D1R2处理叶片SPAD以及Pn、Gs、Tr值最大。交互作用对果长的影响显著(P<0.05),对果径、果形指数和单果重影响极显著(P<0.01),其中D1R1处理果径最大,D1R3处理果型指数最高;D1R2处理果长和单果重最大,平均单果重较其他处理最大增重达28.7%。交互作用对VC含量影响显著(P<0.05),对可滴定酸、可溶性糖含量和糖酸比影响极显著(P<0.01),其中D2R3处理VC含量最高,D1R3处理可滴定酸含量最高,D1R1处理可溶性糖含量最高,D1R2处理糖酸比最大。(3)在种植密度和功能叶数量(22500株·hm^(-2),25节打顶)相同情况下,垄上单行种植和13-14节位留瓜互作模式(D1R2处理)厚皮甜瓜产量、风味口感和VC含量评价指标得分最高,商品价值最佳,推荐该种植模式在北方早春大棚厚皮甜瓜立架栽培中应用推广。

Oxalate-induced resistance of muskmelon to WMV-2

The treatment of muskmelon cultivar 'Wangwenxiang', which is sensitive to watermelon mosaic virus-2 (WMV-2), with oxalate increases systemic resistance of the cultivar to WMV-2 significantly. The challenge inoculation experiments indicate that the symptom of ox-alate-treated plant is much slighter than that of control plants and the virus content is only 4%

新疆西瓜甜瓜产业发展现状及对策建议

西瓜和甜瓜作为新疆重要特色瓜果产业,在推动农民增收致富和区域社会经济发展方面具有重要作用。然而随着全球气候变化及国内外市场环境变化,西瓜、甜瓜产业面临多重困难与挑战。本文基于2023年新疆西瓜、甜瓜产业调研结果,分析了新疆西瓜、甜瓜在种植规模、空间分布、品种结构、栽培模式等方面的现状及困境,据此提出相应的对策建议。

链格孢菌侵染对甜瓜不同组织活性氧代谢的影响

【目的】研究甜瓜损伤接种链格孢菌后,伽师瓜和86-1甜瓜黑斑病发病期间,甜瓜组织内ROS、活性氧代谢酶活性的变化趋势,分析病情与ROS的变化规律以及活性氧代谢酶活性的变化特性。【方法】以伽师瓜和86-1甜瓜果实为材料,研究采后甜瓜损伤接种链格孢菌后,甜瓜果实中不同组织发病情况,分析甜瓜果实活性氧(ROS)产生和清除的变化趋势。【结果】甜瓜果实被链格孢菌侵染后,果实中活性氧H_(2)O_(2)和超氧阴离子含量迅速增加,提高SOD和CAT活性,减少了MDA的产生。侵染早期SOD和CAT活性含量上升缓慢、侵染中期迅速上升、侵染后期快速下降。整个贮藏期内,伽师瓜的SOD、CAT酶活性均比86-1甜瓜强,2种甜瓜果皮中SOD和CAT酶活性均比果肉中高,2种甜瓜接种组的SOD和CAT活性均比对照组高。【结论】甜瓜损伤接种链格孢菌后,在贮藏期间活性氧代谢水平与甜瓜抵御链格孢菌的能力关系密切。伽师瓜对链格孢菌抗性比86-1甜瓜强,尤其在贮藏中后期表现明显,伽师瓜抗病性强于86-1甜瓜,果皮抗病性强于果肉。