木荷

木荷、商陆是Mn污染土壤植物修复的理想物种；

Schima superba and Phytolacca acinosa were proved to be ideal species in phytoremediation of Mn-contaminated soil .

木荷与杉木人工林枯枝落叶层水文生态功能

Eco-hydrological Function of Forest Floors in Schima superba and Cunninghamia lanceolata Plantations

闽北阔叶树种生态组的Fuzzy划分闽北木荷人工林生产潜力的研究

Fuzzy cluster analysis of ecological group of deciduous trees in the North Fujian

而影响栲木荷林土壤氮转化速率是土壤C。

Soil C influences on N mineralization rate of broad-leaf forest soil .

不同形态外源N对木荷马尾松叶凋落物分解的影响

The Effect of Different Form Nitrogen Addition on Decomposition of Schima superba and Pinus massoniana Leaf Litter

用POT方法估计损失分布尾部的效应分析不同恢复类型木荷马尾松林优势种群空间分布格局分析

On Spatial Distribution Pattern in Different Restoration Processes of Dominant Populations in Schima superba and Pinus massoniana Forest

木荷、栲树、米槠三种阔叶木混合KP浆的多段漂白研究

Multi-Stage Bleaching of Kraft Pulps Made from a Mixture of Chinese Hardwood Species

以苗高为标准，分别在两地点初选出优良种源10个，它们多来自25°N左右的木荷自然分布区。

At last , recommended for seedling height , 10 superior provenances were selected respectively for two experimental locations and these provenances almost came from the natural distribution area about at latitude 25 ° N.

说明木荷的立木级越大，抗寒性越强。4、随处理温度的升高，木荷的MDA含量与相对电导率呈现较一致的变化趋势。

Description of Schima superba diameter grades higher , stronger cold-resistance . 4 、 With increase in temperature , changes of relative electrolyte and MDA content show the similar trend .

利用RAPD分子标记研究我国高效生物防火和优良用材树种木荷主要分布区15个地理种源的遗传多样性和遗传结构。

Genetic diversity and genetic structure of l5 provenances from main natural range of Schima superba , an effective biological fire _resistance and high_quality timber species in South China , were analyzed using RAPD markers .

另外，经PEG处理后复水，种子的萌发率均高于对照的32.4%，提示PEG处理可以打破木荷种子的休眠现象。

In addition , through the water addition after PEG treatment , the sprouting rate of seed was 32.4 % higher than that of the control , which hinted that PEG treatment might break the dormancy phenomenon .

海拔800～1300m山地以温性针叶林、甜槠木荷林等为主；

Castanopsis fargesii , at the altitude of 800 ~ 1300 m temperature-coniferous forest and Form .

经9年来对木荷人工造林的实践：海拔900m以上地带，宜在3月中旬造林；

: 9 year 's afforestation of Schima superba showed that , in the belts with an elevation of more than 900 m , proper afforestation time was the middle ten days of March ;

闽南山地木荷林套种南方红豆杉的试验

Interplanting Taxus chinensis Undergrowth of Schima superba in Fujian Southern Mountain

杉木木荷混交林生产力研究

Study on Productivity of Mixed Forest of Chinese fir and Schima

说明木荷的立木级越大，耐热性越强。

Description of Schima superba diameter grades higher , stronger heat-resistance .

木荷播种育苗的关键技术

Key Measures for the Sowing and Growing of Schima superba Seedlings

木荷二元材积表的研制

The Research and Development of Schima Superba Dual Volume Table

木荷人工林合理经营密度表的编制

The Compilation of the Rational Management Density Table of Schima superba Plantation

木荷人工林干物质积累和结构研究

Research on Structure and Accumulation of Solids in Schima superba Man-made Forests

杉木木荷混交林效益分析

Analysis on Benefit of Mixed Forest of Cunninghamia lanceolata and Schima superba

木荷种子水分快速测定试验

Experiment on the Rapid Determination of Schima superba Seed Moisture

木荷稳定碳同位素分辨率的种源差异

Provenance difference in stable carbon isotope discrimination of Schima superba

并利用锥形量热仪测定了9种树叶的燃烧性，对木荷和马尾松落叶的燃烧性也进行了比较；

Using cone calorimeter , we studied the combustion of nine tree species .

演替过程中木荷种群动态的研究

A Study on the Dynamics of Schima Superba Population in Secondary Successional Process

木荷造林技术及幼龄林生长量的研究

Studies on Afforestation Techniques of Schima superba and Increment of Its Young Forest

木荷根围线虫的研究

Studies on Nematodes in the Rhizosphere of Schima Superba

不同容器对木荷等3个容器苗生长的影响

Effects of Different Containers on the Growth of Seedlings of 3 Tree Species

不同坡位木荷人工林生物量及营养结构研究

Studies on the Biomass and Nutrient Structure of Schima superba Plantations on Different Slope

中国木荷及木荷林的地理分布与气候的关系

Relationship between geographical distribution of Schima superba , its forest and climate in China