祁连山不同植被类型土壤碳贮量和碳通量

采用野外调查测定、野外定位观测和室内分析相结合的方法,在植被类型变化较大林区,选择邻近相同海拔、坡向和土壤类型的天然林(青海云杉林、祁连圆柏林、高山灌丛林)、人工林(13年生华北落叶松林)、牧坡草地和农田等植被类型土壤为研究对象,研究了祁连山不同植被类型的土壤碳动态.结果表明:天然林、牧坡草地、农田和人工林的土壤有机碳含量分别为59.45～84.7、78.30、13.51和43.25 g·kg-1,平均土壤有机碳密度分别为15.96～19.95、17.74、10.63和15.97 kg·m-2,土壤有机碳平均周转时间分别为27～36、25、23和33 a;不同植被类型土壤CO2通量依次为青海云杉林584.03 g C·m-2·a-1,祁连圆柏林517.63 g C·m-1·a-1,高山灌丛林601.00 g C·m-2·a-1,牧坡草地796.89 g C·m-2·a-1,农田281.75 g C·m-1·a-1,人工林569.92 g C·m-2·a-1;同一植被类型中,土壤有机碳含量和土壤碳密度随土壤深度增加而降低,而土壤有机碳周转时间则随深度增加而增大.     

Temporal heterogeneity of soil moisture under different vegetation types in Qilian Mountain, China

Field observations were conducted near the forest boundary in Qilian Mountain to test the differences in temporal variability of soil moisture between grassland, shrubland and forest habitats, and to examine the contributions of canopy rainfall interception and plant uptake to any observed differences. It was found that considerable differences of the temporal heterogeneity of soil moisture do exist between the three habitats. The coefficient of variance (CV) in soil moisture content at 5 cm depth was significantly higher in grassland and shrubland than in forest, while that at 20 cm was significantly higher in shrubland and forest than in grassland. High canopy rainfall interception of shrubs and intense soil moisture evaporation in grassland should be responsible for the higher temporal variability of soil moisture content at 5 cm depth in the two habitats, respectively, while the differences at 20 cm depths are most likely only due to the differences in canopy rainfall interception. Water uptakes provide little contribution to the differences in CVs of soil moisture at both 5 cm and 20 cm depths. It was also found that the CV at depth of 20 cm is significantly higher than that at depth of 5 cm, suggesting that the most active depth of soil moisture does not necessarily happen on the surface.     

Temporal heterogeneity of soil moisture under different vegetation types in Qilian Mountain, China

Field observations were conducted near the forest boundary in Qilian Mountain to test the differences in temporal variability of soil moisture between grassland, shrubland and forest habitats, and to examine the contributions of canopy rainfall interception and plant uptake to any observed differences. It was found that considerable differences of the temporal heterogeneity of soil moisture do exist between the three habitats. The coefficient of variance (CV) in soil moisture content at 5 cm depth was significantly higher in grassland and shrubland than in forest, while that at 20 cm was significantly higher in shrubland and forest than in grassland. High canopy rainfall interception of shrubs and intense soil moisture evaporation in grassland should be responsible for the higher temporal variability of soil moisture content at 5 cm depth in the two habitats, respectively, while the differences at 20 cm depths are most likely only due to the differences in canopy rainfall interception. Water uptakes provide little contribution to the differences in CVs of soil moisture at both 5 cm and 20 cm depths. It was also found that the CV at depth of 20 cm is significantly higher than that at depth of 5 cm, suggesting that the most active depth of soil moisture does not necessarily happen on the surface.     

贵州喀斯特山区不同植被下土壤C、N、P含量和空间异质性

西南喀斯特地区是中国四大生态脆弱地区之一,为了解喀斯特生态环境下植被演替对土壤养分循环的影响,选取贵州中部喀斯特地区由乔木林、灌木林和灌草丛等不同植被类型下的土壤为研究对象,采用样块法采集了表层土壤样品,测定C、N、P全量及有效态含量,分析了这些元素的空间异质性特点.结果表明,各养分元素无论全量和有效态含量均在乔木林下最高,灌木林下有机碳及N、P全量的下降并不显著,但养分有效态含量显著下降,而灌草丛下土壤养分无论是全量还是有效态含量均较灌木林下显著降低下降;土壤养分空间异质性在灌木林下最高,土壤全磷素特别是速效磷的空间异质性高于有机碳和N.这显示,不仅是土壤养分含量,而且土壤养分的空间异质性都随植被演替而改变.这种变化中,土壤养分有效态较全量更为剧烈.植物类型和结构变化下凋落物返还及土壤生物化学转化环节的变化可能是引起喀斯特生态系统退化下土壤养分库降低而空间异质化提高的主要原因,这最终也会影响土壤养分在生态系统内的循环和分布.     

沙坡头人工固沙植被土壤水分空间异质性

利用传统统计学和地统计学相结合的方法对沙坡头人工固沙植被区0～200 cm 之间的各层土壤水分的空间变异性进行研究.结果表明,1）土壤水分相对变异较大的层是在160～180 cm层和180～200 cm层,变异系数分别为0.72和0.73.表层0～5 cm层的相对变异也较大,变异系数为0.662）半方差函数分析结果表明,各层土壤水分均具有明显的空间变异性,各层土壤水分自相关部分的空间异质性占总空间异质性的程度很高,所占比例在87.7%～99.9%范围内.各层土壤水分的有效变程大小有较大差异,最小值出现在60～80 cm层(7.04 m),最大值出现在20～40 cm层(19.71 m),土壤水分有效变程从表层到深层没有明显的变化规律;3）土壤水分插值图反映出0～140 cm之间相邻各层土壤水分变化较大,140～200 cm各层土壤水分变化较小;4）土壤水分在0°、45°、90°、135°四个方向的半方差函数基本上是一条直线,表明在这四个方向上半方差和距离的相关性较低,土壤水分变化是独立、随机的,是同质性的.     

祁连山排露沟流域典型植被类型的水源涵养功能差异

土壤水分是"绿水"重要的储存,连接植被与水文系统的纽带。水源涵养功能是山地生态系统重要的生态系统服务,这种功能主要体现是生态系统将水分保持在系统内的过程和能力,并受多种因素的影响(如植被类型、土壤类型和地形)。通过对祁连山排露沟流域的土壤属性、土壤温湿度和降雨2个生长季的野外调查与观测,以及计算水源涵养功能指标来评估3种典型植被类型土壤水分涵养能力的差异。研究结果:(1)灌丛和青海云杉林下有机质、粉粒和砂粒含量、田间持水量、饱和持水量和孔隙度等土壤属性值高于草地,而土壤容重和粘粒含量低于草地;(2)青海云杉林的根区土壤累计入渗量高于灌丛和草地,草地土壤水分损失较灌丛和青海云杉林更快;(3)整个生长季内青海云杉林和灌丛土壤湿度明显高于草地湿度,青海云杉林的水源涵养功能指标值多大于1。这些结果表明青海云杉林较灌丛和草地具有更强的水源涵养能力。因此,研究结果能为国内干旱区山地生态系统的流域生态系统管理与可持续发展提供科学参考。     

湘南红壤丘陵区不同植被类型下土壤肥力特征

以自然植被恢复长期定位试验为基础,通过分析自然恢复31a后形成的6个植被类型区(樟树、枫树、梓树、白檵木、唐竹、白茅草)、2个同期种植的人工植被区(湿地松、板栗)以及相邻裸地区0—100 cm土层pH值、有机质及主要养分含量的变化,明确了湘南红壤丘陵区不同植被类型对土壤肥力的影响。结果表明:(1)白茅草和唐竹区的土壤pH值显著高于裸地区,但枫树和白檵木区的土壤酸化明显。(2)土壤有机质、活性有机质、全P、速效P等指标表现为乔木草本灌木,碱解N、全K、速效K表现为灌木乔木草本,全N表现为乔木灌木草本。(3)土壤综合肥力优劣为:枫树区梓树区白檵木区樟树区唐竹区白茅草区湿地松区板栗区裸地区,自然恢复植被比人工植被更有利于土壤肥力的提高。     

华北地区土壤水分的时空变化特征

土壤水分是重要的水文参数,也是水循环、气候变化等研究的基本要素.本研究利用中国气象局新一代自动土壤水分观测网逐小时土壤水分观测数据,分析2013-2019年间华北地区土壤水分的时空分布和变化趋势及其与降水和温度的关系.结果 表明:研究期间,华北地区10～100 cm土层土壤水分整体呈波动下降趋势,尤以100 cm根区土...     

黄土丘陵区坡面整地和植被耦合下的土壤水分特征

水分是干旱半干旱地区植被恢复的主要环境制约因子。在黄土高原小流域,合理整地能够有效截留降雨补给土壤水,进而促进植被恢复。选择地处甘肃定西的半干旱黄土小流域为研究区,基于野外实测数据,分析不同植被和整地方式(柠条水平阶、山杏水平沟、侧柏反坡台,油松反坡台)综合影响下的土壤水分特征。采用最优分割法将不同整地方式土壤水分垂直层次划分为活跃层,次活跃层和相对稳定层。结果表明:生长季不同整地方式土壤水分的变化与降水量的变化密切相关,不同月份以及不同深度各整地方式土壤水分之间差异显著(P0.05)。根据土壤水分垂直变化特征,山杏水平沟水分活跃层与次活跃层为0—80cm,其深度范围均大于其他3种整地方式,而柠条水平阶土壤水分均在30 cm以下较为稳定,其深度范围均小于其他3种整地方式。不同整地方式土壤水分含量具体表现为:山杏水平沟侧柏反坡台柠条水平阶油松反坡台。     

南京城市公园绿地不同植被类型土壤呼吸的变化

子2007年10月-2008年9月,利用Li-6400便携式光合作用仪配合土壤呼吸气室对南京中山植物园内草坪、疏林和近自然林3种植被类型的土壤呼吸速率的季节变化及其影响因子进行了测定.结果表明:不同植被类型土壤呼吸速率具有明显的季节变化,夏季(8月)较高,近自然林、疏林和草坪类型分别为3.28、4.07和7.58 μmol·m~(-2)·s~(-1),冬季(12月)最低,近自然林、疏林和草坪类型分别为0.82、0.99和1.42 μmol·m~(-2)·s~(-1);不同植被类型的年均土壤呼吸速率有显著差异(P＜0.05),平均土壤呼吸速率大小排序为草坪>疏林>近自然林;不同植被类型的土壤呼吸速率与土壤温度呈显著性指数相关关系,与土壤含水率无显著相关关系;Q_(10)值均随着土层深度的增加而增加;不同植被类型的Q_(10)值存在一定程度的差异,近自然林类型的Q_(10)值大于草坪和疏林类型的Q_(10)值.研究表明,城市如果大量发展草坪可能增加土壤CO_2的排放.

Abstract：

By using Li-6400 portable photosynthetic apparatus connected to soil chamber,the soil respiration rate under three vegetation types(lawn,open woodland,and close-to-nature forest)in Nanjing Zhongshan Botanical Garden was measured from October 2007 to September 2008,with related affecting factors analyzed.The soil respiration rate had obvious seasonal fluctuation,being the highest in summer(August)and the lowest in winter(December).For the close-to-nature forest,open woodland,and lawn,their soil respiration rate in summer was 3.28,4.07,and 7.58μmol·m~(-2)·s~(-1),and that in winter was 0.82,0.99,and 1.42μmol·m~(-2)·s~(-1),respectively.The annual mean soil respiration rate differed significantly with vegetation type(P＜0.05),which was in order of close-to-nature forest＜open woodland＜lawn.The soil respiration rate had significant exponential correlation with soil temperature,but no correlation with soil moisture.The Q_(10) value increased with increasing soil depth,and was larger in close-tonature forest than in open woodland and lawn.Our results indicated that the rapid development of lawn in urban green space could increase the urban soil CO_2 emission.     

长白山植被类型特征与演替规律的研究

根据多次对长白山植被调查和长期定位观测资料 ,全面系统地总结了长白山植被类型特征和演替规律 ,详细描述了长白山地带性和非地带性植被类型的性质、组成、结构和分布规律 ,探讨了长白山植被演替与火山爆发的关系。提出长白山植被垂直分布基带应是红白松阔叶混交林 ,也是长白山地带性植被类型。但由于长期受人类活动影响 ,削弱了地带性表现 ,形成大面积的天然次生林和耕地。据此不应该认为 ,人类能消灭客观自然规律的植被分布的地带性 ,为了恢复地带性植被和定向改造自然 ,应引进地带性树种 ,营造结构合理、种类多样和稳定性强的森林群落。