四川盆地马尾松低效林改造后林地侵蚀变化及其预测

通过定位试验，分析了四川盆地马尾松低效林改造后林地侵蚀变化，并用多元线性回归和马尔柯夫模型对林地侵蚀模数的变化趋势进行了预测。结果表明：①林分改造极其有效地遏制了水土流失，土类和改造措施都影响控制水土流失的效果；②林地土壤侵蚀模数（ｙ）乔木层郁闭度（ｘ＿１），灌木层（ｘ＿２）、草本层（ｘ＿３）、枯落物层（ｘ＿４）等盖度的多元线性回归模型为Ｙ＝５６２１－４３４８＊ｘ＿１－２１＊ｘ＿２－２０＊ｘ＿３－３＊ｘ＿４，Ｒ＝０．９１８５，乔、灌、草、枯落物多层结构配置是低效林水土保持功能高效的关键；③林地土壤侵蚀模数随时间渐变呈衰减性振动趋势，封补６年或封禁１２年左右降至谷值０～４７０ｔ／ｋｍ￣２·ａ，多次衰减振动后渐近于此谷值。

不同肥力提升措施对马尾松侵蚀林地表层土壤质量的影响

提高侵蚀林地土壤肥力,是增加林下植被覆盖,减少林下水土流失的关键。以江西省严重侵蚀地恢复形成的马尾松林地为研究对象,评估有机肥、生物炭和石灰+微生物肥等三种肥力提升措施对林地土壤质量的改良作用。结果表明:各种措施均能提高土层(0~2 cm和2~5 cm)pH值,且对2~5 cm土层pH值提高作用更明显,提高效果为生物碳>石灰+微生物肥>有机肥;各种措施均能提高0~2 cm和2~5 cm土层土壤养分含量,依次为有机肥>生物炭>石灰+微生物肥,但不同肥力提升措施主要提高的营养元素种类不同;各肥力提升措施对土壤酶活性的提高主要显现在0~2 cm土层,具体为有机肥>石灰+微生物肥>生物炭,不同提升措施主要提高的土壤酶种类也不同;隶属函数法综合评价表明三种肥力提升措施均能大幅度提高林地表层土壤质量,表现为有机肥>石灰+微生物肥>生物炭。本研究结果能为劣质林地土壤改良提供理论依据和技术支撑。

不同经营措施对林地土壤侵蚀影响的研究

非点源污染问题已公认为是对水质造成威胁的主要问题之一。林业的生产经营如采伐、整地对森林中水质的降低具有潜在的影响。美国学者J.M.Grace通过对比试验研究在20a生的火炬松人工林采伐后,经过机械整地对于径流及沉积物所造成的影响。采伐后设立隔离小区,小区面积为11hm2,监测时间为2a。采伐-整地处理产生的侵蚀速率为0.82t/(hm2·a),比1965年SmithStamey等人所观测的无干扰的森林的侵蚀速率〔0.30t/(hm2·a)〕大,对照及采伐-整地-栽植处理区在整个研究期间的累积土壤流失保持了相对的稳定性,在强降雨时,采伐-栽植区的土壤侵蚀显著增加,对降雨强度反应敏感,由于作床有助于降水的入渗,减少了地表径流,采伐-整地-栽植区要比采伐-栽植区所产生的土壤侵蚀及径流量少。

强化“林缘”治理措施以遏制“侵蚀”林地现象

森林需要综合治理,才能快速达到林业生态建设的预期目的。实现青山常绿,首先要确保林地面积不"丢失",要从根本上治理。尤其是对一些烧"荒隔子"、扩"地边儿"、开垦"林缘"或灌木林地现象,要采取科学管护手段,主动形成规模。消除一些人的违法意念。这些侵蚀林地的"小动作",乍看无大害,但几年后将会出现:林地面积渐少,林地边缘、小面积水湿地或灌丛地块很快开垦成连片耕地,沙化、水土流失现象逐渐产生。这就使个别区域时而造成自然灾害的突发现象。尤其是山洪冲毁的坡地、水壕,造成的损失根本无法修补。因此,我们林业工作人员,要进一步强化对一些损害林地的"不经意"现象加以治理,确保林地的完整化、功能化的实现。

不同治理措施对严重侵蚀林地土壤含水量和pH值的调控

针对马尾松林地水土流失和生态系统退化问题,通过一系列治理措施的实施已经取得了良好效果。本文以福建省长汀县为研究区域,研究不同治理措施对严重侵蚀林地土壤含水量和p H值的调控。结果表明,不同治理措施的实施显著提高了土壤含水量及其在各土层中的分布,其中以条沟草灌带措施实施效果最好;而土壤p H值虽有所增加,但各种治理措施的实施效果不显著。

Dynamics of Slope Runoff and Soil Erosion of Different Forest Types in Karst Depression

[Objective] The research was aimed to study the dynamics of slope runoff and soil erosion in different forest types in karst depression.[Method] Precipitation observation sites at the bottom of karst depression and runoff observation sites in different forest types were established to monitor regularly the main indices changes of runoff and soil erosion at fixed position in 4 years.[Result] The surface runoff of different forest types appeared singer peak from February to November,with lowest valley from June to July.The runoff coefficient appeared double peaks from February to May and from July to September.The changing coefficient of runoff appeared three peaks from March to April,from July to August and from September to November.The silt concentration appeared one peak from March to May and The erosion modulus appeared double peaks from March to May and from June to August.Runoff showed annually reduced trend with the growth of forests and the development of vegetation layer＇s structure.There was a positive correlation between the runoff and its silt concentration in different forest types.Precipitation and evaporation had notable positive correlation with the runoff,and similar correlation but not marked with silt concentration.The fitting analysis results of surface runoff and erosion modulus showed that rocky desertification intensified the unevenness of surface runoff and increased the surface runoff and erosion modulus.The penetrability of surface soil in new planted forest was lower than that in young forest,and that in surface soil of different forest types was higher than in bottom soil.[Conclusion] The research provided theoretical basis for the biological management technologies of water and soil conservation and the control of karst rocky desertification in karst regions.

红壤区退化林地表土真菌群落结构对土壤改良措施的响应

真菌群落结构和多样性对于土壤改良效果具有高敏感性.研究南方红壤区侵蚀退化林表土真菌群落对有机肥、生物炭和石灰+微生物肥的响应,以明晰不同改土措施的作用.结果表明:(1)3种土壤改良措施均降低了表土真菌丰富度,其中石灰+微生物肥降低作用最大,3种土壤改良措施对表土真菌多样性也有影响,但影响不显著;(2)表土中优势真菌门为子囊菌门(Ascomycota,31.29%~46.55%)、担子菌门(Basidiomycota,30.07%~70.71%),优势真菌属为阿太菌属(Amphinema)和单形古根菌属(Archaeorhizomyces),3种土壤改良措施对表土真菌群落结构的影响不同,有机肥提高了子囊菌门和单形古根菌属的相对丰度,生物炭提高了担子菌门和阿太菌属的相对丰度,而石灰+微生物肥则提高了担子菌门和单形古根菌属的相对丰度;(3)土壤pH是影响表土真菌丰富度的关键因子,而表土真菌群落结构则受pH、全氮和有机碳的影响.研究结果为南方红壤区侵蚀退化林地土壤改良,林下植被生态恢复提供科学指导.