桃枝堆肥对九号桃产量、品质及土壤有机质含量的影响OA
Influence of peach branch compost on the yield,quality of No.9 Peach and organic matter content in the soil
[目的]分析桃枝肥长期应用的效果及其对桃园土壤肥力的影响,助力桃产业的可持续发展.[方法]以桃枝为碳源,配合畜禽粪便进行堆肥制成桃枝有机肥,采用3个用量(15 000、30 000、45 000 kg·hm-2),与常规有机肥进行比较,连续7年研究桃枝肥作为基肥对桃产量、品质及土壤有机质含量的影响.[结果]30 000和45 000 kg·hm-2桃枝肥处理与30 000 kg·hm-2普通有机肥处理在产量和单果质量上无显著差异,但果实可溶性糖含量、可滴定酸含量、糖酸比指标同时优于15 000 kg·hm-2桃枝肥处理和30 000 kg·hm-2普通有机肥处理;随着种植年限的增加,果实中维生素C含量随着桃枝肥的用量增加呈升高的趋势,硬度随着桃枝肥的用量增加而降低.施用桃枝肥可提高施肥沟20~40 cm处土壤有机质含量,提升速率与桃枝肥用量成正比,且有机质含量前期快速上升,随后增长趋势趋缓.土壤有机质含量与产量无相关性,但与桃品质呈正相关.30 000 kg·hm-2桃枝肥处理的单果质量、维生素C含量、硬度与等量普通有机肥无显著差异,但可溶性糖和可滴定酸含量两项口感指标更优.[结论]综上,在平谷桃的生产实际中桃枝肥的推荐用量为30 000 kg·hm-2,施肥方法宜采用沟施,配合行间生草还田技术,既可以满足桃树生长的需要,保证产量和品质的稳定,又能节省投入,持续改善桃园土壤肥力.
[Objective]Peach(Prunus persica)is native to China,and currently,China leads the world in both peach cultivation area and production.Compared with other fruit trees,peach trees grow rapidly and produce a large amount of pruning branches annually.Calculations indicated that each hectare of peach orchard would generate 4500 kg to 7500 kg of pruning branches.In Pinggu district alone,the an-nual pruning of peach branches across all four seasons amounts to nearly one million tons,yet the re-source recycling rate for these branches does not exceed 30%.Most of these branches are piled up in the orchards,severely impacting the orchard environment,posing fire risks,and spreading the pests and dis-eases.In order to utilize the peach branches as a resource,Pinggu district implemented the"Ecological Bridge"project in 2017,encouraging peach farmers to collect the pruned branches and deliver them to designated organic fertilizer production facilities to produce peach-branch organic fertilizer for field appli-cation.However,there has been little research on the effect of long-term application of the peach-branch fertilizer on the tree growth,fruit quality of peach and organic matter in the orchard soil.Therefore,in-vestigation of the long-term effects of the peach branch fertilizer is of great significance for the sustain-able development of the peach industry.[Methods]The peach tree branches were crushed and mixed with livestock manure and subjected to aerobic high-temperature composting to produce organic fertiliz-er.Three application rates were used(Treatment T1:15 000 kg·hm-2;Treatment T2:30 000 kg·hm-2;Treatment T3:45 000 kg·hm-2),and compared with the conventional organic fertilizer.The study was conducted on 4-year-old peach trees of the"No.9"variety from 2017 to 2024,investigating the effects of the peach branch fertilizer as a basal fertilizer on peach yield,quality,and soil organic matter over seven consecutive years.[Results]The 7 years application of the peach branch compost has no adverse effects on the peach tree growth.However,different application rates of the peach branch compost could lead to differences in peach tree yield,quality,and soil organic matter content.Among the treat-ments,the yield and single fruit mass of the 30 000 kg·hm-2 and 45 000 kg·hm-2 peach branch fertilizer application rates showed no significant differences compared with that of the 30 000 kg·hm-2 applica-tion rate of ordinary organic fertilizer,but the soluble sugar content,titratable acid content,and sugar-to-acid ratio of the peach were superior to those of the 15 000 kg·hm-2 peach branch fertilizer application rate and the 30 000 kg·hm-2 conventional organic fertilizer application rate.As the planting years in-creased,the vitamin C content in the fruit showed a trend of increasing with the application rate of peach branch fertilizer,while the hardness decreased with the increase of the application rate of peach branch fertilizer.By the autumn of 2024,before the basal fertilizer application,the soil organic matter content in the 0-20 cm and 20-40 cm layers at the fertilization ditch for treatments T1,T2,T3,and CK reached 34.25 g·kg-1,35.88 g·kg-1,35.76 g·kg-1,33.97 g·kg-1 and 56.36 g·kg-1,65.25 g·kg-1,72.11 g·kg-1,63.58 g·kg-1,respectively,showing a significant increase compared with the beginning of the experi-ment.The rate of increase was positively correlated with the application rate of peach branch fertilizer,with organic matter content rising rapidly in the early stages and then slowing down.Due to the adoption of the inter-row cover crop return-to-field technology,the organic matter content in the inter-row soil showed a trend of increasing year by year.Based on the analysis of yield and quality data,soil organic matter content was not correlated with yield,but was positively correlated with the vitamin C content of the peach fruits and negatively correlated with the hardness.[Conclusion]Based on the results of seven consecutive years of experiments,at a dosage of 30 000 kg·hm-2,the application of the peach branch fer-tilizer showed no significant differences from the application of the conventional organic fertilizer in terms of yield,fruit mass,vitamin C content,and hardness.However,it outperformed conventional or-ganic fertilizer in terms of soluble sugar and titratable acid content,which are indicators of taste.The treatments using 30 000 kg·hm-2 and 45 000 kg·hm-2 of the peach branch fertilizer only resulted in the difference of vitamin C content and firmness.Therefore,in the actual production of Pinggu peaches,the recommended application rate of the peach branch fertilizer would be 30 000 kg·hm-2,and the preferred fertilization method would be trench application combined with the inter-row grass returning technolo-gy.This approach can not only meet the growth needs of peach trees and ensure stable yield and quality but also reduce input costs while continuously improving the soil fertility of the peach orchard.
谷佳林;何文天;刘宝存;喻永强;高利娟;任飞;陆安祥;潘昭隆;张瑜;张军科
北京市农林科学院植物营养与资源环境研究所/北京市缓控释肥料工程技术研究中心,北京 100097北京市农林科学院植物营养与资源环境研究所/北京市缓控释肥料工程技术研究中心,北京 100097北京土壤学会,北京 100097北京市平谷区果品产业服务中心,北京 101200北京市农林科学院植物营养与资源环境研究所/北京市缓控释肥料工程技术研究中心,北京 100097北京市农林科学院林业果树研究所,北京 100093北京市农林科学院质量标准与检测技术研究所,北京 100097北京市农林科学院植物营养与资源环境研究所/北京市缓控释肥料工程技术研究中心,北京 100097北京市农林科学院林业果树研究所,北京 100093北京市农林科学院林业果树研究所,北京 100093
农业科技
桃桃枝肥产量品质土壤有机质
PeachPeach branch fertilizerYieldQualitySoil organic matter content
《果树学报》 2026 (4)
822-832,11
北京市农林科学院农业科技示范服务项目(2025SFFW-SFJD-002,JJP2024-026,2025SFFW-ZHYYCJ-005)北京市农林科学院科技创新能力建设专项(KJCX20240509)北京市农林科学院桃产业技术研究院平台建设与科技能力提升(CYJS202601)河北省重点研发计划(22376201D,22327301D,22327306D)北京市农林科学院资环所团队促进项目(ZHS202306)
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