穆晓国, 李海俊, 徐垒, 王继涛, 张达林, 徐佳鑫, 高富成, 叶林. 连作对土壤质量及硝态氮含量、菜心产量和品质的级联影响[J]. 中国生态农业学报 (中英文), 2024, 32(0): 1−13. DOI: 10.12357/cjea.20240154
引用本文: 穆晓国, 李海俊, 徐垒, 王继涛, 张达林, 徐佳鑫, 高富成, 叶林. 连作对土壤质量及硝态氮含量、菜心产量和品质的级联影响[J]. 中国生态农业学报 (中英文), 2024, 32(0): 1−13. DOI: 10.12357/cjea.20240154
MU X G, LI H J, XU L, WANG J T, ZHANG D L, XU J X, GAO F C, YE L. Cascade effects of continuous cropping on soil quality, nitrate nitrogen content, yield and quality of choy sum[J]. Chinese Journal of Eco-Agriculture, 2024, 32(0): 1−13. DOI: 10.12357/cjea.20240154
Citation: MU X G, LI H J, XU L, WANG J T, ZHANG D L, XU J X, GAO F C, YE L. Cascade effects of continuous cropping on soil quality, nitrate nitrogen content, yield and quality of choy sum[J]. Chinese Journal of Eco-Agriculture, 2024, 32(0): 1−13. DOI: 10.12357/cjea.20240154

连作对土壤质量及硝态氮含量、菜心产量和品质的级联影响

Cascade effects of continuous cropping on soil quality, nitrate nitrogen content, yield and quality of choy sum

  • 摘要: 为探索露地连作菜心(Brassica chinensis var. parachinensis)产量和土壤状况变化, 开展了以土壤重金属累积、土壤肥力和土壤结构为3因素3水平的正交试验。结果表明: 影响菜心产量的主次因素顺序为土壤结构、土壤重金属累积、土壤肥力; 土壤重金属累积和土壤肥力、土壤结构和土壤肥力交互作用对菜心产量的影响显著(P<0.05), 其他因素交互影响不显著; 影响土壤硝态氮含量的主次因素顺序为土壤重金属累积、土壤结构、土壤肥力, 其中, 土壤重金属累积和土壤结构交互作用对硝态氮的影响显著(P<0.05)。经响应曲面法得出: 当土壤重金属累积综合指数(SHI)<1.0、土壤肥力综合指数(SFI)≥6.5、土壤结构综合指数(SSI)≥1.95时, 菜心产量和土壤硝态氮含量维持在较高水平。为了进一步验证模型准确性, 对3个连作年限与SHI、SFI、SSI、产量、硝态氮含量进行Logitic拟合, 并预测5、9和13年的各项指标数量。重复实验并测定品质指标发现, 连作5年、9年和13年的各项指标预测值和实测值的RMSE值均小于0.83, 具有较高的一致性。连作年限≥5年时, 菜心产量、品质和土壤硝态氮含量显著下降(P<0.05), 且较Box-Behnken模型优化值降低。因此, 当菜心连作年限不超过4年时, 土壤才有较高的生产力来保证菜心稳产和较优的品质。

     

    Abstract: To investigate choy sum yield and soil condition changes in open field continuous cultivation of choy sum (Brassica chinensis var. parachinensis), a three-factor, three-level orthogonal experiment was conducted. The factors examined were soil heavy metal accumulation, soil fertility, and soil structure. Results indicated that the primary and secondary factors influencing choy sum yield were soil structure, soil heavy metal accumulation, and soil fertility, in that order. Significant effects on choy sum yield were observed for the interaction of soil heavy metal accumulation and soil fertility, as well as soil structure and soil fertility (P<0.05), while interactions of other factors were not significant. The primary and secondary factors affecting soil nitrate nitrogen content were soil heavy metal accumulation, soil structure, and soil fertility. Notably, the interaction effects of soil heavy metal accumulation and soil structure on nitrate nitrogen were significant (P<0.05). Through response surface method analysis, it was determined that maintaining a high level of choy sum yield and nitrate nitrogen content required a soil heavy metal accumulation composite index (SHI)<1.0, soil fertility composite index (SFI)≥6.5, and soil structure composite index (SSI)≥1.95. A logistic regression analysis was conducted over three consecutive cropping years using various indicators like SHI, SFI, SSI, yield, and nitrate nitrogen content to forecast these indicators for 5, 9, and 13 years. Upon replicating the study in the following year and incorporating quality metrics, it was observed that the Root Mean Square Error (RMSE) values between predicted and actual values of these indicators for 5, 9, and 13 years of continuous cropping were consistently below 0.83, indicating a high level of accuracy. Notably, when the continuous cropping years exceeded 5, there was a significant decrease in choy sum yield, quality, and soil nitrate nitrogen content of cauliflower, falling below the optimized values of the Box-Behnken model. Hence, it is recommended to limit the consecutive cropping period of choy sum to no more than 4 years to maintain soil productivity at a level that ensures stable yield and good quality of choy sum.

     

/

返回文章
返回