放线菌发酵液肥对骏枣生长生理和产量品质的影响OA
Effects of actinomycetes fermentation liquid fertilizer on growth,physiol-ogy,yield and quality of Ziziphus jujuba'Junzao'
[目的]探究不同浓度放线菌发酵液肥对骏枣生长和结果的影响.[方法]以4年生骏枣为试材,分别于展叶期、幼果期和白熟期叶面喷施3次不同浓度放线菌发酵液肥(原液稀释50倍、100倍、200倍),测定枣树生长生理及产量品质等相关指标.[结果]骏枣新发枣头枝基径在5月和7月YF100处理下较对照(喷清水)显著提高;二次枝基径在5月和8月YF100处理和7月YF50处理下均较对照有所增加;叶片厚度在5、7和8月YF100处理下分别较对照显著增加了 7.05%、13.27%和9.19%;叶面积在7月、8月YF50和YF100处理下较对照显著增加;叶片净光合速率(Pn)均较对照有所提升,YF50和YF200处理较对照显著提高,但发酵液处理之间差异不显著;蒸腾速率(T)在3个处理下均显著提高,而胞间CO2浓度(Ci)在YF50、YF100处理下显著降低,气孔导度(Gs)无显著差异;叶片绿色度(SPAD)在6、7月YF50和YF100处理下均较对照有所提升;叶片相对含水量(LRWC)在YF100处理下较对照显著提高;SOD和PPO活性在YF50和YF100处理下均较对照显著提升,PAL活性在各处理下均较对照有所提高;各处理下优果质量、每公顷产量和优果率均较对照有所提高,非商品果质量有所降低,尤其在YF50和YF100处理下差异显著;此外,总糖含量在3个处理下均较对照有所提升,糖酸比和可滴定酸含量在YF50处理下较对照也有所差异,但各处理之间差异不显著.[结论]放线菌发酵液肥可促进枣树生长,改善生理功能,并提高果实的产量和品质.其中,以放线菌发酵原液稀释100倍的效果最佳.建议可在南疆沙区骏枣园实际生产中,单独或者结合保花保果及病虫害防治喷施3~5次.
[Objective]Xinjiang has become the most important high-quality jujube production area in China due to its unique climatic conditions,of which the jujube is particularly outstanding due to its ex-cellent quality in the desert fringe areas such as Hotan.However,there are some problems in that area such as low organic matter content,poor water retention and imbalance of fertilizer micro-ecology in the soil directly caused by jujube trees,resulting in decline of fruit quality and yield.Actinomycetes fer-mentation liquid fertilizer can produce a variety of small molecules of organic matter and other metabo-lites,and even antibiotics and hormones,etc.through the decomposition of organic matter.This study aimed to investigate the effects of different concentrations of actinomycetes fermented liquid fertilizer on the growth and fruiting of Ziziphus jujuba'Junzao'.[Methods]The experiment was carried out in Beijing Agricultural Park,Lopu County,Hotan Region,Xinjiang.The actinomycetes fermented liquid fertilizer at three concentrations(the original solution diluted 50 times,100 times,200 times)were sprayed on 4-year-old Junzao trees in the leaf spreading stage,the young fruiting stage,and the white ripening stage,respectively,water was used as the control(CK).The sampling was carried out 3-5 d af-ter each spraying to determine the basal diameter of the first branch,basal diameter of the second branch,leaf thickness,leaf area,Pn,Gs,Tr,Ci,SPAD,LRWC,SOD,PAL,PPO,weight of non-merchant-able fruit,weight of superior fruit,yield of a single plant,weight of a single fruit of superior fruit,rate of superior fruit,total sugar,titratable acid,and sugar-acid ratio of jujube.The data were analyzed using Excel 2019,and SPSS 27 was used to perform ANOVA,Pearson correlation analysis and principal com-ponent analysis(PCA).Origin 2025 was used for mapping.[Results]The basal diameter of the first branch of the new jujube significantly increased by 7.42%and 5.94%,respectively,in May and July un-der treatment with YF100,compared with that of the control;the basal diameter of the second branch was significantly increased by 8.21%and 7.16%,respectively,in May and August under treatment with YF100,compared with that of the control,and it significantly increased by 7.14%compared with that of the control under the treatment of YF50 in July,while the differences between the other treatments and the control were not significant.The thickness of the leaf blade significantly increased by 7.05%,13.27%and 9.19%under YF100 treatment in May,July and August,respectively,compared with that of the control,and leaf area significantly increased in July and August under YF50 and YF100 treatments compared with that of the control.The net photosynthetic rate(Pn)of the leaves increased significantly by 5.38%and 6.50%under the treatments of YF50 and YF200,compared with that of the CK,respec-tively.The transpiration rate(T)significantly increased by 5.51%,4.09%and 6.92%under the three treatments respectively,whereas the interstitial CO2 concentration(Ci)was significantly lower under the treatments of YF50 and YF100.There was no significant difference in stomatal conductance(Gs)under the three treatments.The leaf greenness(SPAD)increased under YF50 and YF100 treatments compared with the control in June and July.The leaf relative water content(LRWC)also significantly increased by 12.71%under the YF100 treatment compared with the control;at the same time,SOD and PPO sig-nificantly increased under the YF50 and YF100 treatments compared with that of the control and PAL increased under all treatments compared with that of the control,with a significant increase under YF200 treatment.The weight of superior fruit,yield per hectare and superior fruit rate increased under each treatment compared with those of the control,and the weight of non-commercial fruit was re-duced,especially the differences were significant under the YF50 and YF100 treatments.Moreover,the total sugar increased under the three treatments compared with that of the control,and the sugar-acid ra-tio and titratable acid also increased compared with those of the control,but the differences were not sig-nificant among treatments,the difference was only significant under the YF50 treatment compared with the control.[Conclusion]The actinomyces fermentation liquid fertilizer can promote the growth and physiological function of jujube tree,and improve the yield and quality of jujube fruit.100 times dilu-tion of the original solution seems to be mostly beneficial.3-5 times of stand-alone spraying or com-bined spraying with pest control or flower and fruit management would be suggested in jujube planta-tions in the sandy area of Southern part of Xinjiang.
张莹;李文倩;靳永安;韩刚
西北农林科技大学林学院,陕西杨凌 712100西北农林科技大学林学院,陕西杨凌 712100西北农林科技大学林学院,陕西杨凌 712100西北农林科技大学林学院,陕西杨凌 712100
农业科技
骏枣放线菌发酵液叶面肥生长生理产量品质
Junzao jujubeActinomycesFermentation brothFoliar fertilizerGrowthPhysiologyYieldQuality
《果树学报》 2026 (1)
110-121,12
国家重点研发计划课题(2019YFD1001605)新疆红枣产业技术体系专项资金项目(XJCYTX-01)西北农林科技大学推广专项(TGZX2021-27、TGZX2022-19)
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