首页|期刊导航|南方农业学报|城市森林资源质量对空气负氧离子动态特征的影响及模型比较

城市森林资源质量对空气负氧离子动态特征的影响及模型比较OA

Effects of urban forest resource quality on the dynamic charac-teristics of air negative oxygen ions and models comparison

中文摘要英文摘要

[目的]揭示城市森林中空气负氧离子浓度(NOIC)的日变化与季节变化特征,并构建高精度预测模型,为深入了解森林生态系统对空气质量的调节作用、优化林业生态管理及提升森林康养功能提供参考依据.[方法]基于2023-2024年上海市崇明区城市森林样区的连续监测数据,分析探讨NOIC与归一化植被指数(NDVI)、植被类型、温度、相对湿度、降水量、风速、能见度等因子间的关系;并采用随机森林和时间序列增强模型(STXGB)构建NOIC预测模型,结合5折交叉验证和基于Optuna框架的贝叶斯调参方法优化超参数,通过决定系数(R2)、均方根误差(RMSE)和平均绝对误差(MAE)3项指标对模型的拟合效果进行评估.[结果]常绿阔叶林的NOIC显著高于其他2种植被类型(P<0.05,下同),盐沼草本植被的NOIC显著高于落叶阔叶林;NDVI和NOIC在全年大部分时期呈现一致的季节变化趋势;在春季,NOIC与温度和臭氧(O3)浓度呈极显著正相关(P<0.01,下同),相关系数分别为0.256和0.175;与空气中直径≤2.5 μm颗粒物(PM2.5)浓度和相对湿度呈极显著负相关,相关系数均为-0.231.在夏季,NOIC与相对湿度由春季的极显著负相关转变为极显著正相关.NOIC表现为秋季(2524个/cm3)>夏季(2358个/cm3)>冬季(1841个/cm3)>春季(1036个/cm3),各季节优秀和良好等级的NOIC占比均超过70%,尤其在夏季和秋季,优秀等级的NOIC比例达到100%.STXGB模型测试集R2 达0.8468,RMSE为275.93个/cm3,MAE为175.94个/cm3.与随机森林模型相比,STXGB模型测试集的R2提高近1倍,RMSE和MAE大幅降低.当温度和风速同取高值时,二者的交互对NOIC的提升具有较强的正向协同推动作用;其中负向作用最大的组合是能见度和风速,模型比较结果表明,STXGB模型性能较优,明显优于传统模型.[结论]NOIC动态变化受森林植被结构、气象因子和区域污染物的协同作用.STXGB模型在预测复杂森林环境下NOIC时具有有效性及稳健性,可用于对森林生态监测、森林康养适宜性评价的研究.

[Objective]This study aimed to reveal the diurnal and seasonal variation characteristics of airborne nega-tive oxygen ion concentrations(NOIC)in urban forests,and to construct a high-precision prediction model.The findings were intended to deepen the understanding of the regulatory role of forest ecosystems on air quality,optimize forestry eco-logical management,and enhance the forest-based health and wellness functions.[Method]Based on continuous monito-ring data from the forest sample area in Chongming District of Shanghai during 2023-2024,the study analyzed the relation-ships between NOIC and factors such as the normalized difference vegetation index(NDVI),vegetation type,tempera-ture,relative humidity,precipitation,wind speed,and visibility.Using random forest and a time series enhanced model(STXGB),NOIC prediction models were constructed.Hyperparameters were optimized via five-fold cross-validation and Bayesian optimization based on the Optuna framework.Model performance was evaluated by the fitting effects of coeffi-cient of determination(R2),root mean square error(RMSE),and mean absolute error(MAE)on the model.[Result]The NOIC in evergreen broad-leaved forests was significantly higher than that in the other two vegetation types(P<0.05,the same below).NOIC in salt marsh herbaceous vegetation was also significantly higher than that in deciduous broad-leaved forests.NDVI and NOIC exhibited a consistent seasonal trend throughout most of the year.In spring,NOIC showed an extremely significant positive correlation with temperature and ozone(O3)concentration(P<0.01,the same below),with correlation coefficients of 0.256 and 0.175 respectively,and it was extremely significantly negatively correlated with particulate matter with diameter≥2.5 μm(PM2.5)concentration and relative humidity,with correlation coefficients both of-0.231.In summer,the correlation between NOIC and relative humidity shifted from an extremely significant negative cor-relation in spring to an extremely significant positive correlation.The seasonal variation of NOIC was as follows:autumn(2524 ion/cm3)>summer(2358 ion/cm3)>winter(1841 ion/cm3)>spring(1036 ion/cm3).The proportion of NOIC rated as excellent or good exceeded 70%in all seasons.Particularly in summer and autumn,the proportion of NOIC reach-ing the excellent level was 100%.The STXGB model achieved a test set R2 of 0.8468,an RMSE of 275.93 ion/cm3,and an MAE of 175.94 ion/cm3.Compared with the random forest model,the test set R2 of the STXGB model nearly doubled,while RMSE and MAE were greatly reduced.When temperature and wind speed were both at high values,their interaction had a strong positive synergistic driving effect on the increase of NOIC.The combination with the most significant nega-tive effect was visibility and wind speed.Models comparison results indicated that the STXGB model performed well,greatly outperforming traditional models.[Conclusion]The dynamic changes in NOIC are influenced by the synergistic ef-fects of forest vegetation structure,meteorological factors,and regional pollutants.STXGB model demonstrates effective-ness and robustness in predicting NOIC under complex forest environments and can be applied to research on forest eco-logical monitoring and suitability assessment for forest-based health and wellness.

景元书;张涛;顾薇;陈嘉怡

南京信息工程大学生态与应用气象学院/江苏省农业与生态气象重点实验室,江苏 南京 210044南京信息工程大学生态与应用气象学院/江苏省农业与生态气象重点实验室,江苏 南京 210044崇明区气象局,上海 202150南京信息工程大学生态与应用气象学院/江苏省农业与生态气象重点实验室,江苏 南京 210044

农业科技

城市森林负氧离子机器学习时间序列特征预测模型

urban forestnegative oxygen ionsmachine learningtime series featuresprediction model

《南方农业学报》 2026 (2)

462-473,12

国家自然科学基金项目(42575208)上海地方委托项目(2024h450)江苏省自然科学基金项目(BE2023400) National Natural Science Foundation of China(42575208)Shanghai Local Entrusted Project(2024h450)Jiangsu Natural Science Foundation(BE2023400)

10.3969/j.issn.2095-1191.2026.02.014

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