南京林业大学学报(自然科学版)
南京林業大學學報(自然科學版)
남경임업대학학보(자연과학판)
Journal of Nanjing Forestry University(Natural Science Edition)
2015年
5期
106-110
,共5页
苏文会%范少辉%郭宝华%封焕英%赵建诚%刘广路
囌文會%範少輝%郭寶華%封煥英%趙建誠%劉廣路
소문회%범소휘%곽보화%봉환영%조건성%류엄로
毛竹冬笋%Ca%Mg%Si%元素积累
毛竹鼕筍%Ca%Mg%Si%元素積纍
모죽동순%Ca%Mg%Si%원소적루
winter shoot of Phyllostachys edulis%Ca%Mg%Si%element accumulation
冬笋是毛竹生长的第一阶段,其养分状况对毛竹林分产量和持续生产力具有重要影响. 笔者选择安徽黄山地区毛竹,研究了该阶段Ca、Mg、Si 3种元素在冬笋中的含量变化及动态积累过程,结果表明:笋芽萌动后,随着冬笋生长和生物量增加,Ca和Mg在笋体内含量不断增大并迅速积累,而Si在冬笋生长中期有输出趋势;至出土成为春笋前,Ca、Mg和Si的积累量分别达51.67、28.39、10.94 g/hm2. 为准确掌握各生长阶段冬笋中Ca、Mg、Si 3元素的动态积累过程,采用多元线性逐步回归法,分别拟合了12月至次年3月单笋中3种元素积累量( Y, g)与笋高( H, cm)和笋径( d, cm)变化关系的模型,各模型相关系数均在0.85以上.
鼕筍是毛竹生長的第一階段,其養分狀況對毛竹林分產量和持續生產力具有重要影響. 筆者選擇安徽黃山地區毛竹,研究瞭該階段Ca、Mg、Si 3種元素在鼕筍中的含量變化及動態積纍過程,結果錶明:筍芽萌動後,隨著鼕筍生長和生物量增加,Ca和Mg在筍體內含量不斷增大併迅速積纍,而Si在鼕筍生長中期有輸齣趨勢;至齣土成為春筍前,Ca、Mg和Si的積纍量分彆達51.67、28.39、10.94 g/hm2. 為準確掌握各生長階段鼕筍中Ca、Mg、Si 3元素的動態積纍過程,採用多元線性逐步迴歸法,分彆擬閤瞭12月至次年3月單筍中3種元素積纍量( Y, g)與筍高( H, cm)和筍徑( d, cm)變化關繫的模型,各模型相關繫數均在0.85以上.
동순시모죽생장적제일계단,기양분상황대모죽림분산량화지속생산력구유중요영향. 필자선택안휘황산지구모죽,연구료해계단Ca、Mg、Si 3충원소재동순중적함량변화급동태적루과정,결과표명:순아맹동후,수착동순생장화생물량증가,Ca화Mg재순체내함량불단증대병신속적루,이Si재동순생장중기유수출추세;지출토성위춘순전,Ca、Mg화Si적적루량분별체51.67、28.39、10.94 g/hm2. 위준학장악각생장계단동순중Ca、Mg、Si 3원소적동태적루과정,채용다원선성축보회귀법,분별의합료12월지차년3월단순중3충원소적루량( Y, g)여순고( H, cm)화순경( d, cm)변화관계적모형,각모형상관계수균재0.85이상.
Winter shoot is the first growing period of Phyllostachys edulis, and its nutrition has significant effect on the output and continuous productivity of bamboo stand. P. edulis stand in Huangshan District of Anhui Province was chosen and tested. Ca, Mg and Si contents and their dynamic accumulation in winter shoots were studied in this paper. The re?sults showed that Ca and Mg contents increased and accumulated rapidly in the shoots as growing after sprouting, but Si contents trended to decrease in mid-term. Before winter shoot pushed the soil up and became spring shoot, Ca, Mg and Si accumulation had reached 51.67, 28.39 and 10.94 g/hm2 , respectively. In order to discover the rule of Ca, Mg and Si dynamic accumulation accutately, models of three elements accumulation ( Y, g) to shoot height ( H, cm) and diam?eter ( d, cm) were established and tested with single winter shoot which was growing from December to March of the next year with multiple linear stepwise regression, and the correlation coefficient of each model was above 0.85.