An Edge-assisted, Object-oriented Random Forest Approach for Refined Extraction of Tea Plantations Using Multi-temporal Sentinel-2 and High-resolution Gaofen-2 Imagery

As a consumed and influential natural plant beverage,tea is widely planted in subtropical and tropical areas all over the world.Affected by(sub)tropical climate characteristics,the underlying surface of the tea distribution area is extremely complex,with a variety of vegetation types.In addition,tea distribution is scattered and fragmentized in most of China.Therefore,it is difficult to obtain accurate tea information based on coarse resolution remote sensing data and existing feature extraction methods.This study proposed a boundary-enhanced,object-oriented random forest method on the basis of high-resolution GF-2 and multi-temporal Sentinel-2 data.This method uses multispectral indexes,textures,vegetable indices,and variation characteristics of time-series NDVI from the multi-temporal Sentinel-2 imageries to obtain abundant features related to the growth of tea plantations.To reduce feature redundancy and computation time,the feature elimination algorithm based on Mean Decrease Accuracy(MDA)was used to generate the optimal feature set.Considering the serious boundary inconsistency problem caused by the complex and fragmented land cover types,high resolution GF-2 image was segmented based on the MultiResolution Segmentation(MRS)algorithm to assist the segmentation of Sentinel-2,which contributes to delineating meaningful objects and enhancing the reliability of the boundary for tea plantations.Finally,the object-oriented random forest method was utilized to extract the tea information based on the optimal feature combination in the Jingmai Mountain,Yunnan Province.The resulting tea plantation map had high accuracy,with a 95.38%overall accuracy and 0.91 kappa coefficient.We conclude that the proposed method is effective for mapping tea plantations in high heterogeneity mountainous areas and has the potential for mapping tea plantations in large areas.

Spatial Variability of Soil Cation Exchange Capacity in Hilly Tea Plantation Soils Under Different Sampling Scales

Studies on the spatial variability of the soil cation exchange capacity （CEC） were made to provide a theoretical basis for an ecological tea plantation and management of soil fertilizer in the tea plantation. Geostatistics were used to analyze the spatial variability of soil CEC in the tea plantation site on Mengding Mountain in Sichuan Province of China on two sampling scales. It was found that, （1） on the small scale, the soil CEC was intensively spatially correlative, the rate of nugget to sill was 18.84% and the spatially dependent range was 1 818 m, and structural factors were the main factors that affected the spatial variability of the soil CEC; （2） on the microscale, the soil CEC was also consumingly spatially dependent, and the rate of nugget to sill was 16.52%, the spatially dependent range was 311 m, and the main factors affecting the spatial variability were just the same as mentioned earlier. On the small scale, soil CEC had a stronger anisotropic structure on the slope aspect, and a weaker one on the lateral side. According to the ordinary Kriging method, the equivalence of soil CEC distributed along the lateral aspect of the slope from northeast to southwest, and the soil CEC reduced as the elevation went down. On the microscale, the anisotropic structure was different from that measured on the small scale. It had a stronger anisotropic structure on the aspect that was near the aspect of the slope, and a weaker one near the lateral aspect of the slope. The soil CEC distributed along the lateral aspect of the slope and some distributed in the form of plots. From the top to the bottom of the slope, the soil CEC increased initially, and then reduced, and finally increased.

Tea Plantation Frost Damage Early Warning Using a Two-Fold Method for Temperature Prediction

As the source and main producing area of tea in the world, China has formed unique tea culture, and achievedremarkable economic benefits. However, frequent meteorological disasters, particularly low temperature frostdamage in late spring has seriously threatened the growth status of tea trees and caused quality and yield reduction of tea industry. Thus, timely and accurate early warning of frost damage occurrence in specific tea garden isvery important for tea plantation management and economic values. Aiming at the problems existing in currentmeteorological disaster forecasting methods, such as difficulty in obtaining massive meteorological data, largeamount of calculation for predicted models and incomplete information on frost damage occurrence, this paperproposed a two-fold algorithm for short-term and real-time prediction of temperature using field environmentaldata, and temperature trend results from a nearest local weather station for accurate frost damage occurrence leveldetermination, so as to achieve a specific tea garden frost damage occurrence prediction in a microclimate. Timeseries meteorological data collected from a small weather station was used for testing and parameterization of atwo-fold method, and another dataset acquired from Tea Experimental Base of Zhejiang University was furtherused to validate the capability of a two-fold model for frost damage forecasting. Results showed that comparedwith the results of autoregressive integrated moving average (ARIMA) and multiple linear regression (MLR),the proposed two-fold method using a second order Furrier fitting model and a K-Nearest Neighbor model(K = 3) with three days historical temperature data exhibited excellent accuracy for frost damage occurrence prediction on consideration of both model accuracy and computation (98.46% forecasted duration of frost damage,and 95.38% for forecasted temperature at the onset time). For field test in a tea garden, the proposed methodaccurately predicted three times frost damage occurrences, including onset time, duration and occurrence level.These results suggested the newly-proposed two-fold method was suitable for tea plantation frost damage occurrence forecasting.

Investigation on Species of Spiders in Tea Plantations in Enshi Region of China

The spider resources in tea plantations in Enshi region have been investigated and 51 species of spiders belonging to 22 families have been identified in the paper. The dominant species are clarified and their directory and distribution status are also listed in the paper.

Study on the Construction Modes of Rural Landscape and Ecological Tea Plantation——With Tea Plantations in Helong Township,Ya'an City as a Study Case

By analyzing the present situation and advantages of tea plantations in Helong Township,Ya'an City,the construction modes of rural landscape and ecological tea plantation were studied from the perspective of landscape ecology.

Spatial Analysis of Pollution-free Land for Tea Plantation and Comprehensive Evaluation of Soil Suitability

To survey the tea resource advantages in Guizhou's mountainous areas and complete rational layout of pollution-free tea planting areas, we take the case of Guiding County in Guizhou Province to establish the comprehensive evaluation indicator system of pollution-free land for tea plantation and comprehensive evaluation model of soil suitability of land for tea plantation according to the Environmental Conditions Standard for Pollution-free Food-Tea Producing Areas by the Ministry of Agriculture (NY 5020-2001), using land use data, remote sensing data, soil data, temperature, precipitation, light, DEM and other critical basic data, combined with the spatial analysis statistical method. The results show that the area of land suitable for planting tea is 1265 km2, accounting for 77.57% of the entire study area; the area of land with soil quality, climatic conditions and terrain conditions to meet the planting standard of pollution-free tea is 1232.51 km2, accounting for 75.57% of the total land area; the area of land most suitable for the planting of pollution-free tea is 128.71 km2, accounting for 7.89% of the total land area. The above studies can provide scientific basis and decision support for the implementation of tea planting industry standards in the specific areas, and provide reference for the comprehensive assessment of tea planting in other areas.

Canopy Cultivation Technology and Benefit Analysis of Tea Tree Canopy in Preserved Tea Plantations

The present study introduced the concept and characteristics of preserved tea plantation,and analyzed application and benefit of stereoscopic trimming and pruning technology in the cultivation of tea tree canopy in preserved tea plantations.The results show that the stereoscopic trimming and pruning technology of tea trees has more advantages in production efficiency than other trimming and pruning techniques in terms of yield and output value,and can better exert the regeneration ability of tea branches.The grade of branching is increased from grade 3-4 before unpruning to grade 9-13(3-4 times higher),the length of internode is increased from 1-2 cm to 3-7 cm(increased 3-4 times),the picking area is increased from 0.9 m×1.1 m to 2.8 m×4.2 m(an increase of nearly 10 times),accordingly achieving the best production and economic benefits required in tea production.

Influence of Tea Plantations, Forest and Mixed Farming on Stream Flow and Sediment Loads, Case of Sondu Miriu River Basin, Kenya

The changing patterns of land cover and land use in the tropical river basin over time are critical. The hydrological phenomena at basin and sub basin scale are affected positively or negatively by dynamics of the land cover and land use patterns. Hence identifying causes and driving factors aid in taking appropriate measures to avert the impacts. This study determined the influences of sub basins dominated by tea plantations, forests and agricultural land uses in terms of streamflow and sediment flux variability in Sondu Miriu River Basin in Kenya, East Africa. Field-based investigations were conducted through sampling of flow velocities, turbidity and TSSC obtained from existing River Gauging Stations established within the three sub basins. The sub basin dominated by mixed farming land cover exhibits high turbidity approximately 620 NTU and high levels of total suspended sediment concentration (TSSC) of the order of 630 mg/l in wet seasons. The turbidity levels and TSSC were low in sub basins dominated by forest and tea plantations with approximately mean value of 17 - 29 NTU and 0.019 g/l. The sediment loads in sub basin dominated by mixed farming in the pre planting season in January to February were about 900 tonnes/day higher than that in crop growing season. In sub basins dominated by forest cover and tea plantations, sediment loads were low ranging between 2 - 7 tonnes/day. The relationship between stream flows and area under tea plantations, forests and mixed farming ranged between R2 of 0.025 and 0.16. Tea plantations and forests influence the stream flows and sediment yields in long term duration while in mixed farming variations were observed seasonally. The strong relationships between rainfall and stream flows at the sub basins ranging between R2 of 0.84 and 0.97 revealed the significance of rainfall in hydrologic response of the Sondu Miriu River Basin.

施肥类型对茶园土壤酸度的影响研究

【目的】茶园土壤酸化是当前茶叶生产中面临的重要问题。研究施肥类型对茶园土壤酸度的影响,为茶园土壤酸化阻控和改良提供理论依据。【方法】对比福建省周宁县17个定位监测茶园2013年和2021年土壤酸度变化,并根据相应茶企施肥档案资料,将茶园施肥类型划分为无机型(纯化肥施用)、有机无机型(有机肥和化肥配合施用)、有机型(纯有机肥施用)等3种类型,分析不同施肥类型对茶园土壤酸度的影响。【结果】2013—2021年,无机型肥料管理模式茶园0~20 cm、20~40 cm土层土壤pH平均值分别降低0.26和0.24个单位,年均降低0.033和0.030个pH单位,土壤酸化程度加剧。有机无机型茶园土壤pH分别提高0.19和0.20个单位,年均提高0.024和0.025个pH单位;有机型茶园土壤pH分别提高0.39和0.23个单位,年均提高0.048和0.028个pH单位,土壤酸化得到缓解和改良。茶园土壤pH变化速率与化肥施用量呈极显著的正相关关系,而与有机肥施用量呈极显著的负相关关系,施氮量增加加速茶园土壤酸化,增施有机肥可以减缓和改良土壤酸化。茶园土壤pH变化速率与初始土壤基本理化性状相关关系不显著。【结论】施肥类型是影响茶园土壤酸度变化的主要因素。在茶叶生产中,可通过控制化肥施用量,增加有机肥施用量来阻控和改良茶园土壤酸化。

我国茶园土壤酸化现状、问题及调控途径

土壤酸化问题正在成为限制茶园土壤健康和茶叶优质高产的重要因素,然而,当前对茶园土壤酸化的现状、机制及调控途径尚缺乏系统性总结,制约了茶产业高质量发展。对我国茶园土壤酸化现状进行重点分析,系统阐述茶园土壤酸化的内部机制和外部因素,解析了土壤酸化对茶树生长、土壤元素转化和生态系统过程的影响。针对茶园酸化土壤改良目标,提出酸化土壤的有效调控途径,旨在为茶园土壤健康管理和茶产业绿色可持续发展提供依据。

田间老化生物质炭对茶园土壤氮素形态和细菌群落的影响

【目的】研究田间老化生物质炭对酸性茶园土壤氮素形态和细菌群落结构的影响,探讨土壤氮素形态与微生物群落结构及多样性之间的关系,从而为评估生物质炭在茶园生态系统的长期效应提供科学数据。【方法】2010年在福建省农业科学院茶叶研究所试验基地,试验设置5个生物质炭施用量:0、8、16、32和64 t·hm^(-2),依次记为CK、B1、B2、B3和B4处理。2022年(第12 a)春茶采收后,采集0~20 cm土层土壤,探究不同生物质炭用量对土壤氮素形态及细菌群落结构的影响,并分析其影响因素。【结果】与CK相比,施用生物质炭处理12a后土壤有机碳、全氮、硝态氮、铵态氮、有效钾、pH、砂粒含量分别增加了7.95%~21.40%、11.69%~25.54%、53.45%~115.84%、1.13%~38.86%、28.49%~114.13%、5.51%~12.46%和21.11%~67.88%;碱解氮、有效磷、黏粒和粉粒含量分别下降了11.97%~17.25%(B1处理除外)、15.18%~50.36%、15.64%~38.21%和8.57%~30.63%。生物质炭处理可提高土壤细菌Alpha多样性,增加了变形菌门(Proteobacteria)、放线菌门(Actinobacteria)、芽单胞菌门(Gemmatimonadota)和粘球菌门(Myxococcota)的丰度,减少绿弯菌门(Chloroflexi)、酸杆菌门(Acidobacteria)和浮霉菌门(Planctomycetes)的丰度。非度量多维尺度和线性判别分析结果显示,B0和B4之间有比较明显的分离,B4处理下产生了19种显著差异的微生物类群。相关分析和冗余分析结果表明,土壤有效磷、速效钾、硝态氮、黏粒是驱动土壤细菌群落结构变化的关键环境因子。【结论】生物质炭施用12a后,仍然能够增加土壤碳氮和速效养分养分含量,改善土壤质地结构,从而提高了土壤细菌群落多样性,64 t·hm~(-2)生物质炭用量可长期提高土壤供氮能力。

山地茶园模块化全向动态四点调平装置设计与试验

本文针对目前山地茶园机械转场稳定性差的问题和作业姿态调整的需求,基于四点中心不动调平法原理,设计了一种搭载于底盘上,匹配多种作业机具的全向动态调平装置;开展调平装置关键部件参数设计和力学分析,建立了各支腿受力的数学模型,并仿真验证了模型的准确性。搭建样机并对整机的稳定性进行了分析,然后在丘陵山地综合性能测试平台上进行了转场及斜坡作业试验。试验结果表明:在转场试验中,底盘俯仰角和侧倾角幅值分别为17.9°、16.5°,平台俯仰角和侧倾角分别为6.4°、4.3°,平台俯仰角和侧倾角均值都小于1.8°;在斜坡4种作业工况下,底盘倾斜度均值分别为14.1°、15.2°、15.5°、14.1°,平台倾斜度均值分别为1.8°、1.6°、1.7°、1.6°,且平台的倾斜度标准差均小于底盘倾斜度标准差。研究表明该全向动态四点调平装置精度和稳定性满足山地茶园机具转场和坡地作业的需求。

不同管理方式对古茶园土壤理化性状及酶活性的影响

以云南省普洱市澜沧县惠民乡景迈山大平掌古茶园为试验对象,设置不同管理方式(大量疏枝、免耕,少量疏枝、浅耕,不疏枝、浅耕,不疏枝、免耕),分别采集0~20 cm和20~40 cm土层土壤样,分别测定p H值、有机质、全氮、全磷、全钾、速效钾、有效磷、氨态氮、硝态氮含量及脲酶、蔗糖酶、过氧化氢酶、酸性磷酸酶、蛋白酶的活性。结果表明,少量疏枝、免耕管理方式可有效提高土壤有效磷(13.55 mg/kg)、速效钾(171.44 mg/kg)、全钾(13.27g/kg)等养分的含量,更有利于古茶树的生长和发育;不疏枝、浅耕管理方式对提高古茶园土壤脲酶与蛋白酶的活性效果最佳,更利于提高古茶园的土壤肥力。古茶园的土壤理化性质与土壤的酶活性变化直接相关,其中土壤酸性磷酸酶和蛋白酶更适宜评价古茶园多数土壤性质的变化。

贵州典型茶园土壤酸化及其养分变化特征

茶树长期宿根连作使得茶园土壤酸化严重、养分失衡,导致茶叶产量和品质下降,制约中国茶产业的可持续发展。对贵州省茶叶主产区17个乡镇21个茶园土壤剖面及相邻林地进行调查取样,分析茶园土壤剖面酸度和养分特征。结果表明:茶园土壤0~20、20~40、40~60 cm 3个土层土壤平均pH为4.28、4.44、4.63,土壤酸化明显,呈现出强酸性至极强酸性的特征;其中,0~20 cm土层土壤酸化最为严重,其土壤pH<4.5的样品比例高达71.4%,比相邻林地高出23.8%。茶园土壤养分自表层向下逐步降低;与林地比较,表层茶园土壤有机质下降,而全氮、碱解氮明显增加;当pH<4.5后,除有效铁外,表层土壤其他养分均易流失。与林地比较,茶园土壤交换性酸、交换性铝、交换性氢含量增加,在0~20 cm土层中含量较高,分别达10.25、9.44、0.81 cmol/kg;而阳离子交换量和交换性钙、镁含量则呈下降趋势。相关性分析表明,茶园土壤pH与全氮、碱解氮、有效磷、有效铁、交换性酸和交换性铝存在显著或极显著的负相关关系,而与盐基饱和度、交换性钙镁离子含量存在极显著正相关关系;当pH低于5.2时,尤其是低于4.5后,土壤pH主要受到交换性酸的影响;而高于5.2后,pH主要受到盐基饱和度的影响,且主要取决于钙镁离子含量的高低。

长期不同有机肥替代比例对茶园土壤养分动态的影响

[目的]有机肥部分替代化肥是茶园实现“化肥零增长”的一个重要途径。研究不同有机肥替代比例对土壤养分变化及茶叶产量的影响,为茶园合理高效施用有机肥提供参考。[方法]长期定位试验于2007年在福建省宁德市进行,供试茶树于2006年栽种。试验处理包括不施氮肥对照(CK)、氮磷钾化肥(NPK)处理,以及氮投入总量不变条件下以猪粪替代25%(OM25)、50%(OM50)、75%(OM75)、100%(OM100)化肥氮的有机肥替代处理。氮肥每年分3次追施,磷、钾肥和有机肥一次性基施。于2018-2019年间定期采集表层(0-20 cm)土壤样品,测定土壤养分含量、茶叶产量,同时检测降雨量和地表温度。[结果]施肥显著提高土壤养分含量,但同一养分含量年际间的变异幅度随着有机氮替代比例的上升而增加,除铵态氮含量外,NPK与OM25处理的养分含量及年际间变异系数无显著差异,二者均低于其他有机肥替代比例处理。OM25处理土壤铵态氮平均含量与其他处理相比提升了1.42~3.35倍,显著高于其他处理(P<0.05);硝态氮平均含量的变异系数在有机肥替代处理下超过150%,其含量随有机肥替代比例的升高逐渐提高,但没有表现出显著差异(P>0.05)。CK和NPK处理的土壤钙、镁、锰、铜和锌元素的平均含量显著低于较高的有机肥替代比例处理,OM100处理下土壤有效钙、镁、锰、铜和锌元素的平均含量较最低的CK分别提高了4.12、13.83、2.77、12.32和36.32倍。随着有机肥替代比例的增加,表层土壤pH和速效钾含量随之上升,而铵态氮含量和茶叶的鲜叶产量则呈下降趋势。除铵态氮外,土壤养分含量与取样前7天的降雨量之间存在显著的负相关关系,土壤铵态氮和硝态氮含量与任意阶段的地表温度之间存在显著的负相关关系。[结论]全有机肥模式不利于茶叶增产和土壤养分的供应,且土壤pH的升高对茶树生长有明显的限制作用,降雨过多和地表温度过高也会加剧养分流失风险。低有机质替代比例可以保证氮素的充足和稳定供应,且不会引起pH明显变化,因此是较为适宜的茶园有机肥替代比例。

基于Sentinel-2时序数据的广东省英德市茶园分类研究

茶叶是一种高附加值的经济作物,是我国南方山区乡村振兴的主要抓手。由于毁林种茶等破坏行为,导致森林资源破坏并引发水土流失等生态环境问题。快速准确获取茶园的空间分布对于政府监管和茶叶产业的规划发展至关重要。由于研究区天气多阴雨,茶园分布较为分散,与森林等植被光谱较为接近等原因,导致基于卫星影像提取茶园挑战性较大。为了摸清英德市的茶园空间分布,系统分析了中高分辨率的多光谱Sentinel-2影像数据,结合多时序多特征信息在茶园提取中的应用潜力。以英德市全境为研究区,选用2019年—2021年的9期Sentinel-2影像数据,详细分析了茶树生长的物候特征,进一步探究了茶园和其他地类在多时序中的特征变化,采用Relief算法对所有特征进行重要性排序。根据特征排序结果,选取特征权重值加权90%的特征因子,即7个植被指数特征和2个纹理特征,通过不同的组合排序构建了9种茶园分类场景,采用RF算法对所有分类场景进行精度评价,选取最佳分类场景,进一步探讨了RF分类算法和SVM分类算法对茶园提取的可行性。结果表明:(1)在进行英德市茶园提取时,2月和10月是采用多时相构造茶园多特征的最佳组合,可能因2月茶树处于萌芽期长出部分嫩绿的新叶易于和森林植被区分且在10月前后由于茶园进行了修剪其特征也较明显,因此两时相特征融合易于区分茶园。(2)RF分类方法与SVM分类方法相比,后者的精度较高,其总体精度达到91.56%,Kappa系数为0.89,生产者精度和用户精度分别为80.22%和84.56%。该研究为快速高效获取英德市茶园空间分布信息提供了一种高效的方法,同时为政府在进行茶叶产业规划、管理提供了数据支持。

福鼎市主要产茶乡镇茶园土壤养分状况分析及评价

【目的】为探明福鼎市主要产茶乡镇茶园土壤养分状况,更好指导福鼎茶园科学施肥。【方法】本研究对福鼎市5个乡镇的15个行政村进行实地调查和土壤取样,检测福鼎市茶园土壤pH值、有机质、全氮、全磷、全钾、碱解氮、速效磷、速效钾等养分指标,并对肥力等级进行评价。【结果】福鼎市大部分茶园土壤pH介于4.05~4.29,适合茶树生长;有机质含量为11.22~79.05 g·kg^(-1),除白琳镇和管阳镇部分茶园外,肥力等级均达Ⅰ级标准;土壤全氮含量处于中上水平,分别为0.68~2.43 g·kg^(-1),但碱解氮含量较低;全磷含量为0.08~1.03 g·kg^(-1),除点头镇茶园外肥力等级均达Ⅰ级标准;速效磷含量差异较大,为4.44~91.43 mg·kg^(-1),其中太姥山镇40.70%茶园土壤肥力等级为Ⅲ级标准,速效磷供应不足;90%以上的茶园土壤全钾含量超过10 g·kg^(-1),肥力等级达到Ⅰ级标准,其中磻溪镇茶园土壤速效钾含量最高,为221.95 mg·kg^(-1)。【结论】福鼎市主要产茶乡镇茶园土壤整体肥力水平较优,但部分乡镇取样点碱解氮与速效磷不足,可通过改进施肥方式或肥料种类进一步提高。

苦竹向茶园扩张后不同年龄立竹叶片的功能性状变化特征研究

为探究苦竹茶园扩张后叶片形态性状及养分变化规律,揭示其环境适应策略及觅养特征,以连续成片的苦竹-茶园扩张林分为研究对象,设置4种样地,分别为苦竹中心区(BF)、苦竹界面区(BA)、混交林界面区(MA)和混交林中心区(TB),分析1年生和2年生立竹的叶功能性状在扩展方向的变化特征。结果表明:沿苦竹向茶园扩张方向,1年生立竹叶形态性状呈逐渐增大趋势,在TB样地表现最高,但2年生立竹叶片形态性状随苦竹向茶园扩张呈“V”型变化,各指标在BA样地表现最低;1年生立竹叶比表面积及叶面积波动不对称性值在BA样地显著降低,但2年生立竹该指标在各样地间差异不显著。1年生立竹叶片CNP含量在BA样地显著高于其他样地,而2年生立竹叶片CN含量表现相反。不同年龄立竹叶片C∶N、C∶P、N∶P沿苦竹向茶园扩张方向均呈“V”型变化,在BA样地显著降低。随扩张进行,1年生立竹叶宽、叶面积、叶厚、叶干质量和比叶面积指标逐渐高于2年生立竹,在TB样地差异明显;各样地间1年生立竹CNP含量均高于2年生立竹,但C∶N、C∶P、N∶P表现相反,各指标在BA样地呈明显的年龄差异。总体而言,苦竹立竹叶功能性状间的权衡关系沿扩展方向发生了适应性调整,在资源竞争激烈的竹茶界面区域具有显著的年龄效应。

不同管理模式下茶园土壤真菌群落特征及其功能预测

以福建省安溪县常规管理(M1)、间作套种管理(M2)和配套现代技术管理(M3)3种模式茶园土壤真菌群落为研究对象,通过高通量测序技术对其多样性、组成及功能进行了研究,并对土壤理化指标与土壤真菌群落的关系进行了分析。结果显示:不同管理模式下茶园土壤理化指标有明显差异,pH值、电导率、含水量、全磷含量、C/P比和N/P比在不同管理模式下存在显著(P<0.05)差异。不同管理模式对茶园土壤真菌群落多样性及组成的影响存在差异,M1模式下茶园土壤真菌群落的多样性总体较高,M3模式下子囊菌门(Ascomycota)的相对丰度明显高于M1和M2模式,M3模式下毛壳菌属(Chaetomium Kunze)、原隐球菌属(Saitozyma X.Z.Liu,F.Y.Bai,M.Groenew.et Boekhout)和青霉属(Penicillium Link)的相对丰度明显高于M1和M2模式。相关性分析结果显示:土壤容重与蕉孢壳属(Diatrype Fr.)和绿僵菌属(Metarhizium Sorokīn)的相对丰度呈显著负相关;土壤全氮含量与木霉菌属(Trichoderma Pers.)的相对丰度呈显著负相关,与腐质霉属(Humicola Traaen)的相对丰度呈显著正相关。从门水平上看,土壤C/N比、全磷含量、含水量和容重是影响茶园土壤真菌群落的主要因子,其中,C/N比、全磷含量和容重均主要影响子囊菌门和担子菌门(Basidiomycota)的相对丰度,含水量主要影响被孢霉门(Mortierellomycota)、罗兹菌门(Rozellomycota)、子囊菌门和担子菌门的相对丰度;从属水平上看,土壤C/P比、N/P比和pH值是影响茶园土壤真菌群落的主要因子,其中,C/P比和N/P比主要影响unidentified Glomeromycota和原隐球菌属的相对丰度,pH值主要影响木霉菌属、原隐球菌属和镰刀菌属(Fusarium Link ex Fr.)的相对丰度。FUNGuild功能预测结果显示:未定义腐生真菌在3种模式下均较多;与M1和M2模式相比,M3模式下粪腐生-未定义腐生-木腐生和寄生真菌-未定义腐生真菌呈现明显富集现象。综合研究结果表明:子囊菌门、被孢霉门和担子菌门是茶园土壤优势菌门;未定义腐生真菌是茶园土壤中较多的功能类群;现代滴灌、声控驱虫以及释放捕食螨等系列技术协同下的M3模式有利于维持茶园土壤真菌多样性及其功能的发挥。

不同修剪模式对低产老茶园茶树生育及养分利用效率的影响

修剪是低产老茶园树势衰老茶树更新复壮的常用栽培技术。本研究于2022年春茶结束后(5月下旬)对32年树龄的低产老茶园茶树进行轻修剪、重修剪、深修剪和台刈4种不同程度的修剪,并于当年(2022)秋季、次年(2023)春季两轮共进行3次采样,以探究不同修剪模式对低产老茶园衰老茶树树势改造、养分吸收、茶鲜叶品质的影响。结果表明:台刈对低产老茶园的改造效果最佳。与轻修剪、深修剪和重修剪相比,台刈能显著提高茶树游离氨基酸含量,促进茶叶品质的提升;与轻修剪相比,深修剪、重修剪和台刈修剪后,茶树三轮次一芽二叶的氮磷钾含量均呈现下降的趋势,结合游离氨基酸含量变化趋势,表明修剪有利于提升低产衰老茶树的养分利用效率;对于主茎及各级侧枝粗度,深修剪、重修剪及台刈均显著增加茶树主茎、一级侧枝和二级侧枝的茎粗粗度。本试验进一步明晰了不同修剪模式对低产老茶园茶树生育及养分利用效率的影响,对低产老茶园的树势衰老的茶树更新改造具有一定的指导意义。