Influence of Soil Biogeochemical Properties on the Invasiveness of Old World Climbing Fern (Lygodium microphyllum)

The state of Florida has one of the most severe exotic species invasion problems in the United States, but little is known about their influence on soil biogeochemistry. My dissertation research includes a cross-continental field study in Australia, Florida, and greenhouse and growth chamber experiments, focused on the soil-plant interactions of one of the most problematic weeds introduced in south Florida, Lygodium microphyllum (Old World climbing fern). Analysis of field samples from the ferns introduced and their native range indicate that L microphyllum is highly dependent on arbuscular mycorrhizal fungi (AMF) for phosphorus uptake and biomass accumulation. Relationship with AMF is stronger in relatively dry conditions, which are commonly found in some Florida sites, compared to more common wet sites where the fern is found in its native Australia. In the field, L. microphyllum is found to thrive in a wide range of soil pH, texture, and nutrient conditions, with strongly acidic soils in Australia and slightly acidic soils in Florida. Soils with pH 5.5 - 6.5 provide the most optimal growth conditions for L. microphyllum, and the growth declines significantly at soil pH 8.0, indicating that further reduction could happen in more alkaline soils. Comparison of invaded and uninvaded soil characteristics demonstrates that L. microphyllum can change the belowground soil environment, with more conspicuous impact on nutrient-poor sandy soils, to its own benefit by enhancing the soil nutrient status. Additionally, the nitrogen concentration in the leaves, which has a significant influence in the relative growth rate and photosynthesis, was significantly higher in Florida plants compared to Australian plants. Given that L. microphyllum allocates up to 40% of the total biomass to rhizomes, which aid in rapid regeneration after burning, cutting or chemical spray, hence management techniques targeting the rhizomes look promising. Over all, my results reveal for the first time that soil pH, texture, and AMF are major factors facilitating the invasive success of L. mcirophyllum. Finally, herbicide treatments targeting rhizomes will most likely become the widely used technique to control invasiveness of L. microphyllum in the future. However, a complete understanding of the soil ecosystem is necessary before adding any chemicals to the soil to achieve a successful long-term invasive species management strategy.

Increasing NH4+ retention efficiency of sandy soils by adding a modified kaolin material: Mesolite

Water and ammonium retention by sandy soils may be low and result in leaching of applied fertiliser. To increase water and nutrient retention, zeolite is sometimes applied as a soil ameliorant for high value land uses including turf and horticulture. We have used a new modified kaolin material (MesoLite) as a soil amendment to test the efficiency of NH4+ retention and compared the results with natural zeolite. MesoLite is made by caustic reaction of kaolin at temperature between 80-95°C; although it has a moderate surface area, its cation exchange capacity is very high;(SA=13m2/g,CEC=500meq/100g). A 13cm tall sand column filled with ~450g of sandy soil homogeneously mixed with 1, 2, 4, and 8g of MesoLite or natural zeolite per 1kg of soil was prepared. After saturation with local bore water, concentrated ammonium sulfate solution was injected at the base. Then, bore water was passed from bottom to top through the column at amounts up to 6 pore volumes and at a constant flow rate of 10ml/min using a peristaltic pump. Concentrations of leached NH4+ were determined using an AutoAnalyser. The concentration of NH4+ leached from the column with 0.4% MesoLite was greatly (90%) reduced relative to unamended soil. Under these conditions NH4+ retention by the soil-MesoLite mixture was 11.5 times more efficient than the equivalent soil-natural zeolite mixture. Glasshouse experiments conducted in a separate study show that NH4+ adsorbed by MesoLite is available to plants.

Estimating the economic implications for grazing properties in the Mackay Whitsunday catchments of practice changes to more sustainable landscapes.

In the Mackay Whitsunday region, the dominant grazing based operations are small intensive systems that heavily utilise soil, nutrient and chemical management practices. To improve water quality entering the Great Barrier Reef, graziers are being encouraged to adopt improved management practices. However, while there is good understanding of the management changes required to reach improved practice classification levels, there is poor understanding of the likely economic implications for a grazier seeking to move from a lower level classification to the higher level classifications. This paper provides analysis of the costs and benefits associated with adoption of intensive grazing best management practices to determine the effect on the profitability and economic sustainability of grazing enterprises, and the economic viability of capital investment to achieve best management. The results indicate that financial incentives are likely to be required to encourage smaller graziers to invest in changing their management practices, while larger graziers may only require incentives to balance the risk involved with the transition to better management practices.

Impact of heavy metals on bacterial communities from mangrove soils of the Mahanadi Delta (India)

This study aimed to assess soil nutrient status and heavy metal content and their impact on the predominant soil bacterial communities of mangroves of the Mahanadi Delta. Mangrove soil of the Mahanadi Delta is slightly acidic and the levels of soil nutrients such as carbon, nitrogen, phosphorous and potash vary with season and site. The seasonal average concentrations (g/g) of various heavy metals were in the range: 14810-63370 (Fe), 2.8-32.6 (Cu), 13.4-55.7 (Ni), 1.8-7.9 (Cd), 16.6-54.7 (Pb), 24.4-132.5 (Zn) and 13.3-48.2 (Co). Among the different heavy metals analysed, Co, Cu and Cd were above their permissible limits, as prescribed by Indian Standards (Co=17g/g, Cu=30 g/g, Cd=3-6 g/g), indicating pollution in the mangrove soil. A viable plate count revealed the presence of different groups of bacteria in the mangrove soil, i.e. heterotrophs, free-living N-2 fixers, nitrifyers, denitrifyers, phosphate solubilisers, cellulose degraders and sulfur oxidisers. Principal component analysis performed using multivariate statistical methods showed a positive relationship between soil nutrients and microbial load. Whereas metal content such as Cu, Co and Ni showed a negative impact on some of the studied soil bacteria.

克隆植物绢毛匍匐委陵菜的生态对策研究

本文以匍匐茎草本绢毛匍匐委陵菜(Potentilla reptans L var. sericophylla)为研究对象，基于实验生态学研究方法和野外调查研究了该植物对异质性环境的生态适应对策。 　　对落叶松和油松群林下的绢毛匍匐委陵菜的基株特征和种群特征研究表明：在落叶松林下，绢毛匍匐委陵菜克隆分株具有更大叶面积和更长叶柄;在油松林下，绢毛匍匐委陵菜具有更多的匍匐茎和更多的克隆分株。两个生境中的绢毛匍匐委陵菜形成与其生境相适应的克隆形态和克隆生长特征。在两个群落中的绢毛匍匐委陵菜分株种群的密度和地上生物量没有差异。 　　应用GS+统计软件分析了绢毛匍匐委陵菜分株种群特征及其与所处的土壤基质九个指标（土壤有机质（SOC）、土壤全氮（STN）、土壤全磷（STP）、有效钾（K+）、有效磷（PO43-）、NH4+、NO3-、土壤含水量（SWC）、pH）的空间分布格局的关系，结果显示，绢毛匍匐委陵菜克隆分株种群呈斑块状分布，其克隆分株数的空间自相关尺度为1米;其生长的土壤基质的9个土壤养分及土壤性状指标也都显示了强烈的空间自相关，其自相关尺度（变程）范围在0.24 m ～1.05 m之间，大小顺序为STP>K+>SOC>pH>STN> NO3-> PO43->SWC> NH4+。 其中除STP外，其他8个土壤指标的空间自相关尺度都在0.5 m 左右，NH4+仅为24.4 cm。绢毛匍匐委陵菜野外克隆分株的匍匐茎节间长平均在7 cm 左右。由此表明绢毛匍匐委陵菜克隆分株种群的空间分布尺度大于其所在土壤基质养分及其物理性状的分布尺度，相互联结的克隆分株对异质性土壤资源表现出较大的缓冲能力。其原因之一有可能是克隆生理整合作用使克隆分株局部反应减弱，克隆分株表现趋于一致，克隆分株间实现资源共享，从而高效利用异质性土壤资源。 　　绢毛对匍匐委陵菜克隆特征的局部特化实验将生长在北京东灵山油松（Pinus tabulaeformis）林林窗和林下的绢毛匍匐委陵菜，进行生境间的交互移植-重植野外生态实验以验证绢毛匍匐委陵菜林窗和林下种群间的行为差异是完全由表型可塑性引起，还是局部分化的结果。研究结果表明，实验植物的叶片长度、叶片宽度、叶柄长度和匍匐茎节间长度等克隆形态特征在两生境间无差异。两个来源的植株，其基株生物量、基株分株数和基株匍匐茎总长度等克隆生长特征在林下生境中都比在林窗生境中小，表现出显著的可塑性。所研究的克隆形态特征和克隆生长特征及其可塑性在不同生境来源的实验植物间没有差异。绢毛匍匐委陵菜克隆形态特征和克隆生长特征及其可塑性在林下和林窗生境间没有发生局部分化，林窗为其较适生境，克隆生长特征的可塑性对绢毛匍匐委陵菜利用生境异质性可能具有主要意义。 　　绢毛匍匐委陵菜对土壤养分的克隆可塑性共进行了两个实验。实验1 探讨绢毛匍匐委陵菜对8个土壤基质养分梯度(N, P, K)的克隆可塑性。其结果表明，在植株能够生长的土壤基质养分条件下，随着土壤养分浓度增加，基株生物量、匍匐茎数、分株数增加;生物量分配可塑性反应格局为：随着土壤基质养分浓度的增加，对根生物量投资降低，对叶片的生物量投资增加，而对匍匐茎的投资没有改变。匍匐茎节间长、比叶片重没有对土壤养分梯度发生可塑性反应。随着土壤基质养分的增加，植株根冠比和比根重下降，而根系总长和叶片面积增加。实验2 设置与实验1相同的8个土壤养分梯度，分三个时期收获以探讨绢毛匍匐委陵菜不同发育时期对土壤养分梯度的克隆可塑性，其结果表明：随着植株发育年龄的增加，绢毛匍匐委陵菜的克隆可塑性有增强的趋势。生物量分配格局对土壤养分梯度的可塑性反应早于基株总生物量的可塑性反应;叶片面积、根系总长度和比根重在植物生长后期对土壤养分梯度发生可塑性反应;比叶面积在植物生长早期对土壤养分梯度发生可塑性反应，而在后期则没有;匍匐茎比节间重在生长之初和生长后期均对养分梯度发生可塑性反应。 　　绢毛匍匐委陵菜对局部遮荫的克隆可塑性实验是将采自林窗和林内生境的绢毛匍匐委陵菜“分株对”（即由一匍匐茎节间相连着的两个分株，其一为“目标分株”另一为“相连分株”）在一户外实验中进行全不遮荫、全部遮荫和局部遮荫处理。其结果表明，绢毛匍匐委陵菜基株生物量、匍匐茎总长度、分株数、匍匐茎比节间重、叶柄长、比叶柄重在遮荫条件下较小。匍匐茎节间长度没有对遮荫处理发生反应。在局部遮荫处理，遮荫斑块的分株的叶柄长度由于连着未遮荫斑块中分株而变得更长。这种克隆整合对克隆形态可塑性的修饰作用只在林窗生境来源的实验植物中观察到。其它克隆生长和克隆形态特征的可塑性在不同生境来源的实验植物间没有差异。

间伐对仁用杏园土壤理化性质及生长结果的影响

为了探讨密闭仁用杏园衰败的原因,采用常规的方法研究了间伐对仁用杏园土壤养分、水分及树体生长等方面的影响。结果表明:间伐减小了土壤容重,略微增加了土壤孔隙度;间伐显著提高了0-40 cm土层土壤有机质、0-20 cm土层土壤全氮,略微提高了0-20 cm土层土壤全磷;间伐显著提高了0-80 cm土层土壤速效氮、0-40 cm土层土壤速效磷和0-60 cm土层土壤速效钾,且间伐强度越大土壤养分越高;间伐显著提高了0-500cm土层土壤水分,在干旱的春季、夏季优为显著,且间伐强度越大,土壤水分越高;间伐显著促进了仁用杏生长,提高了坐果率和杏仁产量。白于山山区仁用杏间伐后密度应为167~222株/hm2。

施肥对黄土旱塬区黑垆土土壤肥力及硝态氮累积的影响

本文以长期定位试验为依托,研究了黄土高原旱塬区黑垆土大田对比试验和长期定位施肥对土壤肥力及硝态氮累积和淋溶的影响。结果表明:长期施用有机肥能够明显增加土壤养分,氮磷和有机肥配施效果显著;和1984年土壤养分状况相比,大田对比试验土壤有机质增加了27.1%,全氮和全磷提高了84.2%和34.8%,有效氮、有效磷和速效钾增加了46.9%、540.0%和10.2%,养分水平与长期定位试验中氮磷配施相近。长期定位试验中氮磷配施或与有机肥配施能够有效地减少土壤剖面中硝酸盐的累积和淋溶,氮肥单施硝态氮累积量最大,为1006.4kg/hm2,大田对比试验土壤硝态氮总累积量较长期定位试验中施用氮肥处理的总累积量少。

水肥处理对黄瓜土壤养分、酶及微生物多样性的影响

以津优1号黄瓜为试材,设3个土壤相对含水量水平(50%～60%、70%～80%、90%～100%)和2个肥料追施量(600kgN·hm-2和420kgP2O5·hm-2,420kgN.hm-2和294kgP2O5·hm-2)处理,研究了不同水肥供应对日光温室黄瓜土壤养分、酶活性及微生物多样性的影响.结果表明:土壤中NH4+-N含量随施肥量的增加而提高,随土壤相对含水量的增加而降低;水肥供给的增加有利于提高土壤中速效磷含量和蔗糖酶活性;肥料增加使土壤中蛋白酶活性降低,而水分降低使土壤中脲酶活性提高.土壤中微生物多样性与土壤中养分含量无显著相关性,与土壤脲酶活性呈显著正相关,与蔗糖酶活性呈显著负相关.土壤相对含水量70%～80%、氮肥追施量600kgN·hm-2和420kgP2O5.hm-2处理的土壤养分含量、蔗糖酶、磷酸酶和脲酶活性较高,且土壤中微生物多样性和均匀度显著高于其他处理,土壤生产潜力最优.

子午岭地区植被演替过程中土壤养分及酶活性特征研究

选择植被自然恢复不同年限的阳坡梁坡地作为研究对象,采用时空互代法研究子午岭地区植被恢复过程中土壤养分和酶活性的变化。结果表明,植被恢复140 a内,不同土层土壤有机质含量、全氮含量、蔗糖酶活性、脲酶活性、碱性磷酸酶活性和过氧化氢酶活性增加,且表土层(0~20 cm)土壤养分含量和酶活性高于下层土壤(20~40 cm)。以裸露地为对照,土壤0~20 cm土层,有机质含量、全氮含量、蔗糖酶活性、脲酶活性、碱性磷酸酶活性和过氧化氢酶活性分别增加了23.8%~534.9%、9.3%~300.0%、213.6%~521.5%、40.4%~286.5%、22.7%~232.2%和3.2%~22.4%,土壤速效磷含量呈现波动变化,过氧化氢酶活性变化幅度比其他三种酶低。土壤有机质含量与全氮、速效磷含量密切相关;土壤蔗糖酶与土壤有机质、全氮均为极显著的相关关系(0.930/0.918);土壤脲酶活性与全氮含量相关系数最高(0.804);土壤碱性磷酸酶活性与有机质、全氮含量都呈极显著相关(0.977/0.984);土壤过氧化氢酶活性与全氮含量极显著相关,相关系数达0.996。

黄土丘陵区植被次生演替灌木初期的土壤养分特征

对黄土丘陵区植被次生演替灌木初期的土壤养分特征进行了研究。结果表明:灌木初期土壤养分含量总体上表现出0~20 cm土层明显高于20~60 cm土层,而20~40 cm和40~60 cm间无显著差异。0~60 cm土壤深度内,土壤养分因子含量平均值变化范围分别为:有机质4.66~9.83 g.kg-1,全氮0.33~0.61 g.kg-1,全磷0.49~0.52 g.kg-1,有效氮21.56~41.80 mg.kg-1,有效磷0.73~1.31 mg.kg-1,有效钾58.31~102.01 mg.kg-1。灌木初期的土壤养分条件略好于草本阶段,说明植被演替草本阶段对土壤的培肥作用为群落向灌丛演替阶段发展提供了一个较好的土壤养分环境。灌木初期不同,灌木树种间的土壤养分条件存在一定差异,表明不同灌木树种定居所需适宜的土壤养分条件也不同;灌木初期除土壤全磷外,其他各养分因子间均表现出极显著线性相关关系(P<0.01)。

黄土退耕坡地植物根系分布特征及其对土壤养分的影响

为明确黄土退耕坡地植物根系分布特征及其对土壤养分的影响,在陕西神木六道沟流域选取退耕30 a的长芒草坡地和裸地坡面,利用图像处理和常规分析方法研究了长芒草根系和土壤养分在土壤剖面分布及其相互关系。结果表明: 长芒草根系主要分布在0～50 cm土层,分布规律可用指数函数来模拟。有根系存在的土壤表层有机质、全氮、全磷、硝态氮和铵态氮含量均高于无根系存在的坡面。在有根系存在时土壤有机质、全氮和硝态氮的具有明显的表聚现象。0～ 50 cm有机质、全氮、硝态氮和铵态氮随深度的变化可用幂函数来表示,而全磷随深度呈线性相关。0～50 cm的土壤养分与根长密度的关系可以用线性函数来表示。其研究结果为坡面退耕地土壤管理提供科学依据。

黄土丘陵沟壑区退耕地土壤种子库对植被恢复的影响

为了探讨土壤种子库对植被恢复的影响,该文在野外调查和室内试验的基础上,采用典范变量分析,研究了黄土丘陵沟壑区退耕地土壤种子库密度、土壤水分和养分、地形因子以及退耕年限对植物群落变化的影响,量化了土壤种子库对植被恢复的贡献。结果表明:影响植物群落变化的因子有土壤水分、速效磷、土壤种子库和坡向;仅用土壤种子库只可解释植物群落变化的32.1%;由于退耕地土壤种子库的优势种主要为猪毛蒿,其植被恢复潜力与速度比较小。黄土丘陵沟壑区退耕地植被恢复需要适度的人为干预,有必要适当引进一些演替后期物种,如白羊草、铁杆蒿、长芒草等物种,以缩短演替时间,加速退耕地植被恢复进程,促进黄土丘陵沟壑区水土流失的防治。

黄土丘陵区植被次生演替灌木种群的土壤养分效应

研究黄土丘陵区植被次生演替灌木群落形成过程中土壤养分的变化情况。【方法】以白羊草群落为对照,选取杠柳、狼牙刺、丁香、虎榛子和柠条5种乡土树种为研究对象,测定其土壤养分含量,计算灌木群落形成变化过程中的土壤养分指数(Soil Nutrient Index,SNI),分析了各养分因子间的线性相关关系。【结果】不同灌木初期对土壤养分的适应能力大小顺序为:柠条(0.072)>狼牙刺(0.114)>杠柳(0.163)>丁香(0.172)>虎榛子(0.292)。不同植被物种群落土壤SNI值大小顺序为:虎榛子群落(0.979)>狼牙刺群落(0.535)>柠条群落(0.457)>丁香群落(0.341)>杠柳群落(0.333)>白羊草群落(0.145)。从不同灌木群落形成过程所产生的土壤养分改善效应来看,各参试群落相对于白羊草群落土壤养分的增幅分别为:虎榛子(4.740倍)、狼牙刺(2.909倍)、柠条(2.661倍)、杠柳(1.169倍)和丁香(1.168倍)。各土壤养分因子间除土壤全磷与有效磷和有效钾的相关性不显著外,其余各土壤养分因子间均表现出极显著的线性相关关系(P<0.01)。【结论】不同灌木种群所需的适宜土...

黄土塬区三种豆科牧草的土壤养分剖面分布特征与平衡

为了解豆科牧草短期种植对土壤养分环境影响的进程和规律,通过田间试验对沙打旺、苜蓿和胡枝子等3种豆科牧草以不同密度单播、混播对土壤有机质、全氮、全磷剖面分布和平衡输出的影响进行了定性和定量分析。所有处理土壤全氮和有机质含量在土壤剖面2m深度范围内均呈典型的"S"形分布,全磷呈抛物线形分布。单播牧草固氮能力与播种密度呈正相关;苜蓿固氮能力最强,高密度下表观生物固氮量达507.5kg·hm-2。沙打旺生长1年可使土壤有机质平均净增3.51%。沙打旺和苜蓿全磷平均输出比率分别为43.14%和40.24%,显著高于胡枝子(23.74%);胡枝子与沙打旺、苜蓿的两两混播处理和3种牧草混播处理平均全磷输出比率分别为20.73%、26.33%、25.83%。试验结果表明,3种豆科牧草均可显著提高土壤有机质累积,沙打旺和苜蓿对土壤全氮和全磷的消耗显著大于胡枝子,但前两者的固氮能力也强于后者。以适当密度进行的不同牧草混播处理由于种间良性竞争和共生协调作用可优化混播群体对土壤养分的消耗利用。

黑龙江省黑土区土壤养分空间变异特征研究

本研究在大样本实验研究的基础上，综合运用现代信息统计原理和比较分析方法，从时空运动的角度，对黑龙江省黑土区23个县市的耕层土壤有机质、全氮、全磷、全钾、碱解氮、有效磷、有效钾含量的空间异质性特征及其演变过程进行了深入研究。目前黑龙江省黑土有机质和全氮含量仍处于我国较高的水平，全量磷钾含量处于中等水平，速效磷钾含量却处于高等级水平。土壤有机质与除有效磷外的其它5种养分性状均呈0.001水平极显著相关，23个县市的7种养分性状综合聚类为3个主要区域。7种养分含量均具有较强的空间相关性，钾素的空间有效相关距离最小，为200km，有效磷为372k讯，其它在600-1100k讯之间。有机质、全氮、全磷、碱解氮含量的空间分布主要受结构因素影响，分别高达84％、79.6％、84.8％、91.3％，且有相似的空间分布规律；全钾和有效钾的空间分布受结构因素和随机因素的影响约各占50％，空间分布相反；有效磷含量完全受随机因素施肥的影响，空间分布除哈尔滨市外较均匀。同开垦前的相比，有机质、全氮、全磷含量下降均超过50％，同第二次土壤普查比，全磷、全钾含量降低相对较大，土壤有机质和全氮含量有升有降，变化幅度小，南部部分县市和拜泉县养分状况正朝好的方向发展。