[目的]探究核桃园土壤养分的空间特征,了解土壤肥力状况,为核桃园管理单位划分提供依据,从而实现精准施肥.[方法]以湖北保康核桃园为研究对象,采用地统计学和内梅罗法相结合的方法,分析了 110块样地的土壤pH值、养分空间特征及肥力水平.[结果](1)保康县核桃园土壤pH均值为6.68,以中性和微酸性土壤为主,具有弱变异性;有机质、水解性氮、有效钾、有效磷含量(w,后同)均值分别为27.63 g kg-1、109.41 mg kg-1、125.43 mg·kg-1和23.74 mg kg1,具中等变异.(2)中等肥力核桃园占78.3%,肥沃核桃园占20.7%,水解性氮是土壤肥力的主要限制因子;土壤肥力指数与核桃干果每666.7 m2产量呈显著正相关.(3)水解性氮、有效钾含量主要受自然结构的影响,呈现显著空间正向聚集性;有机质、有效磷含量受自然结构和人为因素的双重影响,具有空间正相关性,但空间聚集效应不显著.(4)海拔与水解性氮含量、有效磷含量、土壤肥力指数呈极显著正相关,与有机质含量呈显著正相关,而与有效钾含量无显著相关性.[结论]该地区土壤pH值适宜核桃生长,现存核桃园整体肥力中等偏上,提高土壤肥力能够增加核桃干果产量.土壤空间变异主要受自然结构的影响,其中海拔是影响土壤肥力的关键因素,可以作为核桃园管理单元划分的重要依据.在土壤管理中,需要增施氮肥以提高林地土壤综合肥力.
Spatial distribution characteristics of soil nutrients in walnut orchards based on geostatistical model
[Objective]Despite the importance of soil nutrient management in walnut orchards,there is little research focusing on the spatial characterization of soil nutrients and the impact of topography on nutrient distribution and overall fertility.Consequently,the purpose of this study was to elucidate the current state of soil nutrient content and fertility,as well as to investigate the spatial characteristics of soil nutrients in walnut orchards.The findings are intended to inform the division of management units within these orchards,making it easier to establish focused and accurate fertilization strategies.Finally,the study aims to enhance soil nutrient management and contribute to the sustainable and efficient pro-duction of walnut orchards.[Methods]In this study,a 5 km grid was used to designate 110 plots of wal-nut orchards in Baokang County.Soil properties,including pH value,organic matter,hydrolyzable nitro-gen,available potassium,and available phosphorus,were tested.Soil fertility was thoroughly evaluated using both statistical analysis and the Nemerow index method.Geostatistical analyses were performed using GS+9.0 software to fit the variogram and select the optimal model.Moran's index was employed to assess the spatial autocorrelation of soil nutrients in the study area,with local spatial autocorrelation clusters identified using local Moran's Ⅰ.Kriging method was applied for spatial optimal unbiased in-terpolation,and spatial distribution maps were created using ArcGIS software.[Results]In Baokang County's walnut orchards,the average soil pH was 6.68,indicating predominantly neutral to slightly acidic conditions with weak variability.Mean values for hydrolyzable nitrogen(HN),available potassi-um(AK),organic matter(OM),and available phosphorus(AP)were 109.41 mg·kg-1,125.43 mg kg-1,27.63 g·kg-1,and 23.74 mg·kg-1,respectively,each exhibiting moderate variability.According to the Nemerow index,the soil fertility index ranged from 0.90 to 2.26,with an average of 1.57.Approximate-ly 78.3%of the land was categorized as moderately fertile,and 20.7%as fertile.In analyzing the facul-tative properties of soil nutrients,it was found that HN,AK,OM,and AP,as well as the comprehensive soil fertility,predominantly exhibited clustered distributions.Concerning the directional trends:HN con-centrations were observed to be higher in the eastern and southern regions,with lower concentrations in the western and northern areas.AK displayed a localized polar distribution.AP concentrations were pre-dominantly higher in the central and eastern regions compared to other areas.Finally,OM exhibited a trend of being higher in the eastern and western regions while lower in the northern and southern parts.These spatial and directional trends provide insights into the heterogeneous distribution of soil nutri-ents,which is critical for targeted soil management and fertilization strategies in walnut orchards.Nota-bly,HN scores were significantly lower than other soil indices,indicating it as a primary limiting factor in soil fertility.Correlation analysis of soil fertility index and average acreage yield of walnut dry fruits showed that soil fertility was significantly positively correlated with dry fruit yield.The ranges of HN,AK,OM,and AP contents were 8.175,5.421,7.440,and 6.634 km,respectively,which were larger than the sampling distances,indicating that they could satisfy the needs of spatial analysis.The coefficients of determination were 0.894,0.724,0.742,and 0.844,respectively,which were larger than 0.5,indicat-ing that the fitting effect was good under the corresponding theoretical model,and the spatial variability of soil nutrients was more accurately reflected by the spatial variability.Spatial autocorrelation analysis of the soil revealed that HN and AK block base ratios were 14.4%and 15.6%,respectively,with block base ratios below 25%,suggesting influence predominantly from natural structures.Conversely,OM and AK block base ratios were 35.2%and 39.2%,respectively,indicating influence from both natural structures and stochastic factors.All Moran's Ⅰ values of soil nutrients in the study area were positive,denoting a significant spatial aggregation.Z-values of Moran's index for HN and AK were 4.30 and 3.05,respectively,with p<0.05,which indicated that there were significant spatial aggregation effects for both of them;while z-values of AP and OM were 0.63 and 0.98,respectively,and the aggregation ef-fect of the two was not significant(p>0.05).High-value nutrient aggregation areas were primarily in higher elevations like Longping Township,with lower values in lower elevations such as Maqiao and Dianya Townships.Elevation significantly influenced soil fertility,showing a strong positive correlation with HN and AP content,a significant correlation with OM content,and no significant correlation with AK content.[Conclusion]The soil pH in the area,predominantly neutral to slightly acidic,is condu-cive to walnut growth.Currently,the overall fertility of the walnut orchards ranges from medium to high,indicating a beneficial environment for walnut cultivation.Despite this,there is room for improve-ment in soil fertility to further enhance walnut yields.It is well-established that better soil fertility corre-lates with higher yields of walnut dry fruit.The management of walnut orchards at the county scale tends to be basic,with soil nutrient content primarily influenced by natural structures and secondarily by anthropogenic activities.Elevation is found to be an important natural factor that significantly corre-lates with soil fertility,HN,AK and OM,making it a critical parameter for delineating soil nutrient man-agement units.To optimize the comprehensive fertility of orchard soil and,consequently,the yield of walnut orchards,it is necessary to adjust soil management practices.Specifically,increasing the applica-tion of nitrogen fertilizer is specifically recommended to address the identified deficiency in HN and boost overall soil fertility.
JuglansGeostatisticsSoil nutrientsSpatial distribution characteristics
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