文章摘要
韦献东 1 ,卢晶晶 2,陈 鑫 1 ,陶志华 1 ,郝蕴祺 1 ,王凌晖.DRIS 法在金花茶和山茶营养诊断上的应用研究[J].广东农业科学,2019,46(10):19-25
查看全文    HTML DRIS 法在金花茶和山茶营养诊断上的应用研究
Application of DRIS Method in Nutrition Diagnosisof Camellia nitidissima and Camellia japonica
  
DOI:10.16768/j.issn.1004-874X.2019.10.004
中文关键词: 金花茶  山茶  八角  郁闭度  营养指标  诊断施肥综合法 DRIS
英文关键词: Camellia nitidissima Chi  Camellia japonica L  Illicium verum  canopy density  nutritional index  Diagnosis and Recommendation Integrated System (DRIS)
基金项目:国家自然科学基金(31360174);广西林业科技项目(桂林科字﹝ 2012 ﹞第 25 号)
作者单位
韦献东 1 ,卢晶晶 2,陈 鑫 1 ,陶志华 1 ,郝蕴祺 1 ,王凌晖 1. 广西大学林学院广西 南宁 5300042. 广西国有六万林场广西 玉林 537004 
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中文摘要:
      【目的】根据研究结果及植物营养与肥料的关系进行平衡施肥,提高八角林下金花茶和山茶的 生产能力和肥料利用率,为林下种植金花茶和山茶的栽培养护提供理论依据。【方法】以金花茶(Camellia nitidissima Chi)和山茶(C. japonica L)为试验材料,测定 4 种不同郁闭度下的金花茶和山茶的 N、P、K 元素含量, 同时用 DRIS 法分析金花茶和山茶在不同郁闭度的八角林下的营养指标和养分情况。【结果】金花茶叶片的全 N、 全 P 含量均随着郁闭度的增加呈“增加 - 减小”趋势,均在郁闭度 0.7 下最大;金花茶叶片的全 K 和山茶叶片 的全 N、P、K 含量均随着郁闭度的增加呈现增加趋势,且均在郁闭度 0.9 下最大。根据诊断施肥综合法(DRIS) 分析发现,不同郁闭度下两种植物的需肥顺序各不相同;金花茶在全光照、郁闭度 0.5、郁闭度 0.7、郁闭度 0.9 下的需肥顺序为 K > P > N、N > P > K、K > N > P、P > N > K;山茶在全光照、郁闭度 0.5、郁闭度 0.7、 郁闭度 0.9 下的需肥顺序为 N > P > K、K > P > N、K > N > P、P > K > N;金花茶的 NII(营养不平衡指数) 大小表现为郁闭度 0.9 > CK >郁闭度 0.7 >郁闭度 0.5,山茶表现为 CK >郁闭度 0.9 >郁闭度 0.5 >郁闭度 0.7。 【结论】根据两种植物的 NII 值大小可以得出,金花茶在郁闭度 0.5 下、山茶在郁闭度 0.7 下的营养最平衡,比 较适宜两种植物的生长,但不同郁闭度下两种植物土壤养分状况、需肥情况存在一定差异,在生产上要根据实 际郁闭度进行合理施肥。
英文摘要:
      【Objective】Based on the research results and the relationship between plant nutrition and fertilizer, balanced fertilization was carried out to improve productivity and fertilizer utilization rate of Camellia nitidissima and C. japonica, and provide theoretical basis for the cultivation and conservation of understory plants. 【Method】 By using C. nitidissima and C. japonica as experimental materials, the contents of nitrogen, phosphorus and potassium in C. nitidissima and C. japonica under different canopy closures were determined, and the DRIS method was used to analyze the nutritional index and nutrient status of C. nitidissima and C. japonica under Illicium verum forests of different canopy density. 【Result】 The contents of total nitrogen and total phosphorus in the leaves of C. nitidissima showed an increasing-decreasing trend with the increase of canopy density, and they were the largest at a canopy density of 0.7. The total N, P and K contents in the leaves of C. japonica and total K content in the leaves of C. nitidissima showed an increasing trend with the increase of canopy density, and they were the largest under the canopy density of 0.9. According to the Diagnosis and Recommendation Integrated System (DRIS), the order of fertilizer requirements of the two plants under various canopy density was different. The orders of fertilizer required for C. nitidissima in full illumination, canopy density of 0.5, canopy density of 0.7 and canopy density of 0.9 were showed as K > P > N, N > P > K, K > N > P and P > N > K. The order of fertilizer required for C. japonica in full illumination, canopy density of 0.5, canopy density of 0.7, and canopy density of 0.9 were showed as N > P > K, K > P > N, K > N > P, K > N > P, P > K > N. The NII (nutrition imbalance index) of C. nitidissima showed as: canopy density 0.9 > CK > canopy density 0.7 > canopy density 0.5 and that of C. japonica showed as: CK > canopy density 0.5 > canopy density 0.9 > canopy density 0.7. 【Conclusion】 According to the NII values of the two plants, it can be concluded that C. nitidissima and C. japonica have the optimal balance of nutrients at the canopy density of 0.5 and 0.7, respectively, which are suitable for the growth of C. nitidissima and C. japonica. However, there are some differences in soil nutrient status and fertilizer requirement between two plants under different canopy density. In production, reasonable fertilization should be carried out according to the actual canopy density.
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