桉树对土壤肥力阻碍

桉树对土壤肥力的阻碍
1 桉树的相关概述
1 related overview of the eucalyptus
桉树简介
eucalyptus introduction
桉树是桃金娘科桉树属的总称,属常绿乔木。

树皮粗厚而宿存或滑腻而年年脱落,有挥发性芳香油,同松树、杨树一路成为全世界最速生、经济价值最大、生态和社会效益最高的三大树种。

一百连年前我国开始引种桉树,初期只是小规模的引种实验或观赏性质的树种;最近几年来桉树人工林的规模迅速进展,国内总的种植面积已达154万公顷,仅次于印度和巴西,要紧散布在两广地域、云贵川地域、福建和海南等长江以南地域。

The floorboard of the eucalyptus is myrtaceae eucalyptus, evergreen trees. Bark thick and persistent or smooth and loss year after year, have a volatile balmy oil, become the world's fast-growing with pine, poplar, the economic value of the three largest and most ecological and social benefits. Early one hundred years ago began to introduction of eucalyptus in China, only small-scale introduction experiment or ornamental quality tree species; The size of the rapid development of eucalyptus plantation in recent years, domestic total planting area of million hectares, is second only to India and Brazil, are mainly distributed in areas, YunGuiChuan areas of guangdong, fujian and hainan region south of the Yangtze river.
桉树用途
eucalyptus purposes
桉树的经济效益比较客观,要紧用在以下方面:第一个重要的用途确实是纤维材,桉树造纸普遍的应用在我国江淮一带的纸浆厂,桉树纤维材还能够用于生产纤维板和刨花板,最近几年来华南的纤维板厂正慢慢成立和完善并正向环保型纤维板生产方向进展;第二桉树是质量上成外部美观的家具装饰用材,多用于高级次的建筑物和室内装饰,不但质量好,而且十分美观;第三桉油是用途良好的医药和香料原料,其中史密斯桉、直杆蓝桉、亮果桉等是产油较高的树种。

最后桉树在园林绿化和生态林建设方面的应用十分普遍。

The economic benefits of eucalyptus is more objective, mainly used in the following aspects: the first is important use fiber material, eucalyptus is widely used in paper pulp mill of jianghuai area in our country, eucalyptus fibre material can also be used for production of fiberboard and particleboard, fiberboard factory in south China in recent years is gradually establish and perfect and is environmentally friendly fiberboard production direction; Second on the quality of eucalyptus is into external beautiful furniture, decoration material used in high-grade building and interior decoration, not only of good quality, and very beautiful; Third eucalyptus oil is use good raw material medicine and spices, including eucalyptus, straight rod Smith is eucalyptus globulus, bright fruit such as eucalyptus oil high tree species. Finally eucalyptus in landscaping and the application of the construction of ecological forest is very extensive.
桉树的阻碍
the influence of eucalyptus
桉树人工林大面积进展可能会致使土地肥力衰退,这种衰退要紧表此刻两方面:一方面桉树因其速生性,其生长进程需要由土地供给大量的养分,因此对土壤肥力的消耗较大;另一方面,桉树林地的治理方式不科学,如不论土壤条件,改变了土壤结构,减少了地表的植被覆盖,进而致使林地土壤水分下渗量减少和水土流失的严峻问题。

Could lead to widespread development of eucalyptus plantation land fertility decline, the decline is mainly manifested in two aspects: on the one hand, eucalyptus because its speed is, the growth process of land supply has to be a lot of nutrients, thus for the consumption of soil fertility; Eucalyptus forest, on the other hand, the management is not science, such as whether soil conditions, change the soil structure, reduced the surface vegetation cover, leading to reduced the volume of forest land soil water infiltration and the serious problem of soil erosion.
2 土壤肥力
2 the soil fertility
土壤肥力的界定
definition of soil fertility
土壤是林业生产的首要因素,常以N、P、K和有机质等养分的含量来衡量土壤肥力的高低。

土壤肥力是土地生产力的基础,土壤肥力是土壤为植物生长提供营养和环境条件的能力,是土壤大体性质的综合表现。

苏联土壤学家威廉士对土壤肥力的概念是:“土壤在植物生活的全进程中同时又不断地供给植物以最大量的有效养分及水分的能力”;现代学者孙波、陈金林等人将土壤肥力概念为:“内外在因素(光照、温度与土壤物理条件等)都适合特定植物生长时,土壤以适当的量和平稳的比例向这种植物供给养分的能力。

”
Soil is the first factor of forestry production, often nutrients such as N, P, K and organic matter content to measure the level of soil fertility. Soil fertility is the basis of land productivity, soil fertility is the ability to provide nutrients for plant growth and environmental conditions, is the integrated embodiment of soil basic properties. Soviet soil scientist William James to the fertility of soil is defined as: "soil in the whole process of plant life and continually supply plants with the most large amounts of available nutrients and moisture capacity"; Sun bo, modern scholars Chen Jinlin et al. Soil fertility is defined as: "absurdism factors (light, temperature and soil physical conditions, etc.) is fit for a particular plant growth, soil in the appropriate amount and balance the proportion of the ability to supply nutrients to the plant."
土壤肥力评判指标
the soil fertility evaluation index
一样来讲土壤肥力与健康的诊断要紧有描述土壤健康的描述性分析和定量研究的分析性指标,具有定量单位的分析性指标是学术研究中评判土壤肥力的要紧
标准,分析性指标要紧包括物理指标、化学指标和生物指标,在评判土壤肥力时依照不同的土壤和评判目的,选择性的对指标进行取舍组合。

学者研究调查指出合理评判土壤肥力应该参考以上指标进行综合测量。

In general the soil fertility and health diagnosis is mainly describe the soil healthy descriptive analysis and quantitative analysis of the indicators, with the quantitative analytical index of the unit is the main standard of evaluation of soil fertility in the academic research, analytical indicators mainly include physical, chemical and biological indicators, according to different soil and when evaluate the soil fertility evaluation purpose, selectively to choose combination index. Scholars research points out that the reasonable evaluation index of soil fertility should refer to the above comprehensive measurement.
3 桉树对土壤肥力的阻碍
Three eucalyptus impact on soil fertility
对土壤物理性质的阻碍
impact on soil physical properties
土壤容重大小能够反映土壤的通透性和根系伸展的阻力状况,土壤容重容重大小在专门大程度上阻碍着植物根系的生长、土壤动物和微生物的活动。

土壤水分是土壤物质转化和代谢的重要因素,土壤中的毛管水能够移动,关于植物是最有效的水分,专门大程度阻碍着植物的生长发育;通过笔者实地按期调查显示在同一层级的桉树人工林地,随着树龄增加,土壤的容重慢慢减少,而土壤的最大持
水量有所增加;土壤孔隙要紧包括毛管孔隙和非毛管孔隙,其中毛管孔隙将细小土粒排列形成小的孔隙,有利于土壤水分被毛管引力吸持,因此这种孔隙决定了土壤的蓄水性;非毛管孔隙那么是由较大土粒疏松排列形成的,这种孔隙对水分吸持力较小,进入孔隙的水分会专门快淋失,其决定了土壤的通气性和排水情形。

笔者实地按期调查在同一层级的桉树人工林地,随着树龄的增加,土壤的孔隙度慢慢增加,改善了土壤的通气条件,可是随着土层深度的增加,土壤通气良好的状况慢慢降低。

综上所述,桉树人工林的大规模种植能够在必然程度上改良土壤的容重、土壤的含水量和土壤的孔隙度,可是这种对土壤物理性质的改善程度是需要进一步验证的。

Size can reflect the permeability of soil and soil bulk density roots stretching resistance condition, soil bulk density size to a large extent affect the growth of plant roots, soil, animal and microbial activity. Soil moisture is an important factor of soil material and metabolic, capillary water can be moved from the soil, to plant is the most effective moisture, greatly affect plant growth and development; Through field survey on a regular basis at the same level of eucalyptus plantation forest, along with the age growth, soil bulk density gradually decreased, and soil maximum moisture capacity increased; Soil porosity is mainly including capillary porosity and capillary porosity, capillary porosity will fine soil particles arrangement form small pore, is beneficial to soil water by capillary force holding, so the pore determines the water storage of soil; The capillary pores are formed from large soil grain loose arrangement, such porosity on the moisture holding force is small, into the pore water will soon leaching, determining the soil air permeability and drainage. The author field surveys on a regular basis at the same level of eucalyptus plantation forest, as the growth of the age, soil porosity increased gradually, the improved soil aeration conditions, but with the increase of soil depth, soil aeration good condition gradually reduced.
To sum up, the large-scale cultivation of eucalyptus plantation can to a certain extent, improve soil bulk density, soil water content and soil porosity, but the improvement on soil physical properties is need further validation.
对土壤化学性质的阻碍
impact on soil chemical properties
3.2.1 土壤中的氮是植物生长发育所需要的营养元素之一氮元素的供给容量反映土壤的整体水平,其中碱解氮表现了一按时期内N素的供给情形,调查显示桉树林地的土壤全N和水解N随着林龄的增加而慢慢减少,对同一林龄的土壤随土壤层次的增加全N、水解N含量慢慢降低。

与对照(混交林)相较,桉树人工林的土壤全N、水解N含量均小于混交林含量。

3.2.1 of nitrogen in the soil is one of the nutrients needed for plant growth and development reflects the overall level of soil nitrogen supply capacity, the alkaline hydrolysis nitrogen embodies the supply situation of N element in certain period of time, according to a survey of eucalyptus woodland soil total N and hydrolytic N decrease gradually along with the increase of forest age, on the same plantation age of soil with soil layers increased total N, hydrolytic N content gradually decreased. Compared with the control (mixed), eucalyptus plantation soil total N, hydrolytic N content were less than the mixed content.
3.2.2 磷关于植物生长具有专门大的营养生理功能植物所需要的磷要紧来自土壤,但是土壤有效磷只占全磷量的极小部份,有效磷和全磷量之间并无相关性,因此土壤全磷量并非是土壤磷素供给水平稳量指标。

实地调查结果显示,关于
同一层级的土壤全磷量随着林龄的增加慢慢减少,同一树龄的土壤随土壤层次的增加也慢慢降低;而对有效磷量的阻碍并非明显。

3.2.2 phosphorus for plants to grow very nutrition physiological function of phosphorus mainly from plants need soil, however, available soil phosphorus accounts for only small part of the amount of total phosphorus, effective phosphorus and total phosphorus amount is no correlation between, so the quantity of soil total phosphorus is not measure the soil p supply level. Field survey shows that for the same level of total phosphorus content in soil increased with the increase of forest age gradually decreases, with the increase of the soil layers of the soil is of the same old gradually reduce; And affects the quantity of effective phosphorus is not obvious.
3.2.3 钾的调剂催化作用加速了植物对二氧化碳的同化增进碳水化合物的转移和蛋白质的合成,钾素增强植物的抗击力,是植物生长必需营养元素之一。

钾素能增强植物的抗病力,土壤中的速效钾是钾素的现实供给指标。

调查显示,速效钾和全钾的含量随着林龄的增加递减明显,这说明桉树的生长对土壤全钾和速效钾的均显着阻碍。

3.2.3 the regulation of potassium catalyst accelerated the plant assimilation of co2 promotes the transfer of carbohydrate and protein synthesis, potassium enhance plant resistance, is one of must nutrient elements for plant growth. Potassium can enhance the disease resistance of plants, and the soil available k is the reality of potassium supply indicators. According to the survey, rapidly-available potassium and total potassium content is diminishing with the increase of forest age, suggesting that the growth of eucalyptus on soil total potassium and
available potassium have significant influence.
3.2.4 尽管土壤中微量元素的含量仅有万分之几,对植物正常生长发育起着不可轻忽的作用直接阻碍到有机体的代谢进程;微量元素要紧由酶、维生素和生长激素等组成的成份。

在桉树人工林的实地调查中显示,林地土壤微量元素的含量呈现递减趋势,其中有效Fe和有效Mn的含量在0-20cm土层处随着林龄的增加而减少,但是不同树龄的土壤有效Fe含量转变不显着;有效Cu的含量在40-60cm 土层处的含量无明显转变,而其余土层的含量均随林龄的增加而减少;而有效Zn 的含量在土层的并无明显转变。

总之,桉树人工林的生长对土壤有效微量元素有必然的阻碍。

3.2.4 although the content of trace elements in soil, only very few to the plant normal growth and development plays a considerable role directly influences the metabolism of organisms process; Trace elements is mainly composed of enzymes, vitamins and growth hormone, etc. Field survey in eucalyptus plantation, woodland soil trace element content present a tendency of decreasing, the effective content of Fe and Mn in 0 ~ 20 cm soil layer increased with the increase of forest age decreased, soil effective Fe content in different tree age, however, change is not significant; Effective content of Cu in 40 to 60 cm soil layer has no obvious change in content, while the rest of the content of soil decrease with the increase of forest age; And effective zinc content in soil and no obvious change. To sum up, the growth of eucalyptus plantation on the soil effective trace elements have a certain effect.
对土壤生物性质的阻碍
impact on soil biological properties
3.3.1 土壤微生物是丛林生态系统的重要组成元素它在土壤中的含量和活动状况反映了土壤肥力,也是土壤中生物活性的具体表现。

调查显示桉树林地土壤微生物以细菌占多数,且桉树林地土壤中的微生物含量随着林龄的增加而减少;其中细菌和放线菌在同一林龄40-60cm土层含量最多,20-40cm土层处含量最少,这可能与根系散布状态有关系。

而同一树龄真菌的含量0-20cm土层处含量最多,而40-60cm土层处土壤微生物数量最少,这种散布状态与土层腐殖质含量相关;
3.3.1 soil microorganisms is forest ecological system is an important element of its content and activity in the soil reflect the soil fertility, and also the embodiment of the soil biological activity. Eucalyptus forestland soil microbes in the majority with bacteria, according to the survey and eucalyptus forestland soil microbes content along with the increase of forest age and reduce; Of bacteria and actinomycetes in the same forest age 40 to 60 cm soil layer content, most content of at least 20-40 cm soil layer, which may have relations with root system distribution. Over the same old fungi in 0 ~ 20 cm soil layer at most, and 40-60 cm soil layer soil microbial quantity minimum, this distribution state associated with the soil humus content;
3.3.2 土壤酶是土壤中具有生物活性的蛋白质,有助于土壤中的物质转化酶活性高低是土壤肥力的衡量指标之一。

调查分析结果说明:蛋白酶过氧化氢酶、脲酶在桉树人工林土壤的不同层次之间有着显着阻碍;其中过氧化氢酶不同林龄之间达到了显着不同,而脲酶不同林龄之间并无显着性不同;即桉树林的生长降低了土壤蛋白酶、过氧化氢酶有较大的阻碍而对土壤脲酶、磷酸酶的阻碍较小。

3.3.2 rainfall distribution on 10-12 soil enzyme is protein with biological activity in the soil, to the material transformation in soil
enzyme activity is one of the indicators of soil fertility. Investigation and analysis results showed that the protease, urease, catalase in eucalyptus plantation has a significant effect between the different levels of soil; The catalase reached significant differences between different forest age, between different forest age and urease and no significant sex differences; That the growth of eucalyptus forest reduce the protease and catalase in soil has a great influence and effect on soil urease, phosphatase is smaller.
综上所述,桉树大规模的种植对土壤特性的阻碍集中体此刻:桉树的生长尽管必然程度上改善了土壤物理性质,可是,桉树对土壤化学性质产生的负面阻碍随着其生常年份将日趋增大;桉树人工林对土壤微生物及土壤酶活性有持续的抑制作用,关于土壤的微量元素有负面阻碍,最终将致使土壤肥力衰退的问题。

因此桉树的种植和治理应该采取加倍合理的技术方法,推行科学的种植配置模式进行科学耕耘,增进人与自然和谐的进展。

To sum up, mass of eucalyptus planting on soil characteristics embodied in: the influence of the growth of eucalyptus although to some extent, improved the soil physical properties, however, eucalyptus the negative effect on soil chemical properties with its growing year will increasing; Eucalyptus plantation on soil microorganism and soil enzyme activity has sustained inhibitory effect, can have negative effects for soil trace element, will eventually lead to decline of soil fertility problems. Therefore eucalyptus planting and management should adopt a more reasonable technological measures, promoting scientific planting configuration mode of scientific farming, to promote the human and the nature harmonious development.。