互花米草入侵对滩涂湿地甲烷排放的影响

在浙江省台州市附近滩涂湿地设置3个不同互花米草入侵密度梯度,即仅有本土植物样地、互花米草与本土植物混生样地和互花米草单优群落样地,研究互花米草入侵对滩涂湿地CH₄排放的影响.结果表明: 3个样地CH₄排放通量为0.68～5.88 mg·m^-2·h^-1,CH₄排放通量随着互花米草入侵梯度的增加而显著升高,互花米草单优群落样地CH₄排放通量分别为本土植物样地和混生样地的8.7和2.3倍.互花米草入侵显著提高了产甲烷菌数量、产甲烷潜力、甲烷氧化菌数量、甲烷氧化潜力、植物生物量、土壤有机碳含量和土壤pH,降低了土壤全氮含量.CH₄排放通量与土壤全氮呈显著负相关,与产甲烷菌数量、产甲烷潜力、甲烷氧化菌数量、甲烷氧化潜力、植物生物量和土壤pH呈显著正相关.互花米草的入侵提高了滩涂湿地植物群落生物量和土壤pH,促进了产甲烷菌数量和产甲烷潜力,从而提高了滩涂湿地的CH₄排放.     

沼泽湿地互花米草植物体传输与排放甲烷特征

于各测定月的小潮日,使用悬管装置采集气样并结合气相色谱测定,对闽江河口互花米草（Spartina alterniflora）沼泽湿地互花米草植株的甲烷传输量及其主要释放部位进行了研究,另又采用静态箱法-气相色谱法测定了互花米草沼泽湿地甲烷的排放通量,以此分析互花米草植物体甲烷传输对互花米草沼泽湿地甲烷排放通量的贡献率,最后测定了互花米草植株髓腔内的甲烷浓度。结果表明,不同生长阶段的互花米草植株甲烷传输量明显不同,快速生长阶段的互花米草植株甲烷传输量最高;互花米草植株甲烷传输对互花米草沼泽湿地甲烷排放通量的贡献率介于9%-94%之间;互花米草植物体传输甲烷的主要释放部位是距地面0-20cm处,该部位对植物甲烷传输量的贡献率为50%（平均值）;髓腔内的甲烷浓度远高于大气中的甲烷浓度,且自下而上呈递减趋势。     

胶州湾典型河口湿地土壤活性有机碳和酶活性对互花米草入侵的响应

以胶州湾洋河口湿地为研究对象,按照互花米草入侵年份(0、1、5、8年)分层采集土壤样品(0—10、10—20、20—40 cm和40—60 cm),研究土壤活性有机碳(LOC)和酶(脲酶、过氧化氢酶、碱性磷酸酶、蔗糖酶)活性的变化,分析土壤活性有机碳和酶活性及两者相关性对互花米草入侵的响应。结果表明:与光滩相比,互花米草入侵增加了表层土壤LOC含量,且随着入侵时间的延长显著增加(P0.05)。同时也改变了土壤LOC垂直分布规律,除光滩和入侵1年样地表现出沿剖面逐渐上升之外,其他样地表现为沿剖面先上升后下降趋势;互花米草入侵提高了河口湿地土壤酶活性,但并未改变酶活性随深度增加而逐渐降低的分布规律。随着入侵时间的延长4种酶活性变化趋势有所差异,过氧化氢酶和蔗糖酶活性变化趋势一致,表现为随入侵时间延长先急剧增加后逐渐减少,而碱性磷酸酶和脲酶活性随着入侵时间的延长逐渐增加。Pearson相关性分析结果显示,土壤LOC和酶活性呈显著负相关且互花米草入侵时间越长两者间相关性越低,8年后无显著相关性。     

互花米草入侵对胶州湾河口湿地土壤总铁分布的影响

互花米草是胶州湾滨海湿地典型的入侵物种,为进一步了解互花米草入侵对胶州湾河口湿地土壤总铁含量分布的影响,于2017年3月、5月、7月、9月和11月分别在互花米草湿地和光滩采集土壤样品,并对土壤总铁含量、有机质含量、土壤可溶性盐、pH、含水率、容重和土壤粒度进行测定与分析。结果表明:互花米草入侵显著提高了土壤总铁含量,两样区0—50 cm土层土壤总铁含量差异显著(P0.05),5月和7月互花米草湿地总铁含量在垂直方向上呈先上升后下降趋势;与光滩在同一采样月份相比,互花米草湿地土壤总铁含量增幅分别为25.36%、29.50%、17.52%、30.28%和14.48%。相关性分析表明,互花米草湿地和光滩土壤总铁含量均与有机质含量和可溶性盐呈显著正相关(P0.01);并且光滩土壤总铁含量与含水率呈显著正相关(P0.01),与容重呈显著负相关(P0.01),表明两样区土壤总铁含量受有机质含量和可溶性盐影响较大。     

互花米草入侵九段沙河口湿地对当地昆虫多样性的影响

为认识因互花米草(Spartinaalterniflora)入侵而给九段沙河口湿地昆虫多样性带来的影响,我们于2004年5月到2005年10月间用网捕和收割植株两种方法对3个典型植物群落中昆虫多样性作了连续调查。研究期间,共采集到昆虫11,300头。经鉴定为97个种,隶属于12目69科。互花米草群落中昆虫的物种数、个体数量以及Shannon-Wiener多样性指数均显著低于土著植物芦苇(Phragmitesaustralis)群落和海三棱藨草(Scirpusmariqueter)群落中的;而Simpson优势度指数较土著植物群落中高。聚类分析结果表明:芦苇与海三棱藨草群落中昆虫群落结构更为相似。互花米草的入侵将可能导致九段沙湿地昆虫多样性的降低和群落结构的改变。     

闽江河口互花米草入侵湿地土壤无机硫赋存形态及其影响因素

选择闽江河口鳝鱼滩的互花米草湿地为研究对象,基于时空互代法,探讨了不同互花米草入侵年限（SA1： 5-6 年;SA2： 8-10 年;SA3： 12-14年）湿地土壤的无机硫赋存形态及其主要影响因素。结果表明,随着互花米草入侵年限的增加,湿地土壤的水溶性硫（H₂O-S）含量整体呈增加趋势,而吸附性硫（Adsorbed-S）、盐酸可溶性硫（HCl-Soluble-S）和盐酸挥发性硫（HCl-Volatile-S）含量整体均呈降低趋势。相对于SA1,SA2、SA3土壤的H₂O-S含量分别增加了10.02%和2.68%,而其Adsorbed-S、HCl-Soluble-S和HCl-Volatile-S含量分别降低了9.02%、10.95%、7.57%和15.61%、32.89%、15.14%。湿地土壤的总无机硫（TIS）含量、TIS储量及其占全硫（TS）储量的比例均随互花米草入侵年限的增加而降低,且这种降低主要取决于Adsorbed-S、HCl-Soluble-S和HCl-Volatile-S的贡献。此外,随着互花米草入侵年限的增加,影响湿地土壤不同形态无机硫赋存的环境因子均发生了较大变化,其中土壤颗粒组成、EC和pH的改变对无机硫赋存形态的影响最为明显。研究发现,随着互花米草入侵年限的增加以及该区对互花米草定期刈割活动的进行,湿地土壤无机硫养分可能将继续降低并逐渐趋于缺乏状态,长期而言将减弱互花米草自身的入侵能力。     

互花米草入侵影响下闽江河口湿地土壤有效硅的时空变化特征

2016年1—12月,选择闽江河口鳝鱼滩的短叶茳芏湿地、互花米草湿地以及二者的交错带湿地为研究对象,采用定位研究方法探讨了互花米草入侵影响下湿地土壤有效硅含量的时空变化特征。结果表明:互花米草入侵影响下3块湿地土壤有效硅含量随时间推移整体呈波动上升趋势;互花米草入侵显著提高了鳝鱼滩湿地30—60 cm土层土壤有效硅含量(P0.01),与短叶茳芏湿地相比,交错带湿地和互花米草湿地30—60 cm土层土壤有效硅含量分别增加了8.56%和19.97%,逐步线性回归分析表明土温和电导是影响其变化的重要因素(P0.01)。研究互花米草入侵影响下湿地土壤有效硅含量的变化特征,对于揭示湿地生态系统生源要素硅生物地球化学循环过程以及互花米草入侵及其扩张机制具有重要意义。     

互花米草入侵对漳江口红树林湿地土壤有机碳官能团特征的影响

红树林对全球气候变化敏感, 近年来不少区域又受互花米草(Spartina alterniflora)入侵的影响, 土壤碳库组成发生显著变化, 然而鲜有从有机碳官能团特征角度出发的关于两群落的研究。为了解在红树林群落与互花米草群落下土壤碳库及其有机碳官能团的特征差异, 在福建省云霄县漳江口红树林自然保护区湿地内由内陆到海岸方向选取3条样带, 每条样带依次选取3个样地: 红树林群落(MC)、秋茄(Kandelia obovata)-互花米草过渡带(TC)和互花米草群落(SC), 每个样地选取3个呈品字形分布的采样点, 分5层采集0-100 cm土壤样品, 分析土壤中的总有机碳(TOC)、颗粒有机碳(POC)以及可溶性有机碳(DOC)特征, 并利用核磁共振波谱法测定表层0-15 cm与深层75-100 cm土壤总有机碳官能团特征, 以空间换时间法研究入侵前后土壤碳库变化特征。结果表明: (1)从MC群落到SC群落, 土壤有机碳库显著减小, 各样地总有机碳与颗粒有机碳含量表现为MC > TC > SC, 并随着土层深度增加而减少, DOC含量没有表现出明显的变化趋势。(2)各植被类型土壤有机碳以烷基碳与烷氧碳为主, 其次是芳香碳与羰基碳, N-烷氧碳与酚基碳含量最少, 其中表层0-15 cm土壤从红树林群落到互花米草群落, 烷基碳与烷氧碳含量呈现增加趋势但不显著, 芳香碳与酚基碳含量显著减少, 其余有机碳组分含量无显著差异。在深层75-100 cm随着植被类型的改变, 土壤有机碳组成结构均无显著差异。(3)在0-15 cm土层, 烷基碳/烷氧碳含量表现为: SC > MC > TC; 芳香度表现为SC最小, MC与TC无显著差异; 疏水碳/亲水碳无显著差异; 脂族碳/芳香碳表现为SC显著大于其他两种植被类型, MC与TC无显著差异。在75-100 cm土层, 各比值无显著差异。综上所述, 红树林群落碳储量显著高于互花米草群落, 受植被的影响, 互花米草群落表层土壤有机碳分解程度显著高于红树林群落, 而红树林群落的土壤有机碳分子结构要比互花米草群落更复杂, 以维持其土壤有机碳的稳定性。因此, 互花米草入侵红树林后可能会加快有机碳的分解, 最终稳定在相对简单的分子结构, 降低土壤碳储量。     

互花米草入侵对鸟类的生态影响

生物入侵威胁本地物种生存,破坏生态系统的结构和功能,是导致全球生物多样性丧失的重要原因之一。外来植物是入侵生物中的重要一类,可以显著改变本地植被群落,并影响其他生物类群。鸟类作为生态系统中的较高营养级,对由入侵植物引起的栖息地变化十分敏感。互花米草自引入中国沿海以来,其分布区域不断扩散,多数研究认为互花米草入侵造成本地生物多样性降低和生态系统退化。系统梳理了互花米草入侵对鸟类栖息地、食物资源、繁殖、群落等方面的生态影响。主要负面影响有:(1)植被群落结构不利于鸟类栖息、筑巢、觅食;(2)鸟类食物资源丰度和多样性下降;(3)本地鸟类种群数量和物种多样性显著下降。在我国东部沿海湿地,互花米草入侵已经显著改变了植被与鸟类分布格局。但随着入侵历史的增长,少数小型雀形目鸟类却可以逐渐适应互花米草生境。互花米草入侵为某些非本地鸟类提供了空白生态位,在一定程度上丰富了本地物种多样性,对互花米草的快速清除反而可能不利于已适应并依赖互花米草生境的鸟类。综上,认为互花米草入侵对鸟类群落甚至整个生态系统的影响可能需要更多研究进行综合评价,应开展长期、大尺度、多因子的监测研究和多物种比较研究,建立生态评价模型并制定科学有效的互花米草管理对策。     

互花米草盐沼土壤有机碳库组分及结构特征

在江苏盐城互花米草(Spartina alterniflora)盐沼建立以下样地:光滩(Mudflat)、互花米草建群1a(S.alterniflora flat 2011)、5a(S.alterniflora flat 2007)、12a(S.alterniflora flat 2000)、23a(S.alterniflora flat 1989)以及碱蓬(Suaeda salsa flat 1989),采集表层土壤样品,分析土壤中的活性有机碳(可溶性有机碳、微生物量碳)特征,并利用核磁共振波谱法测定土壤总有机碳的结构图谱,研究互花米草盐沼土壤有机碳库组分及结构特征。结果表明:(1)互花米草建群后,盐沼表层土壤有机碳含量显著增加(P0.05),在0.82—7.6 g/kg之间,各样地表层土壤有机碳含量为:互花米草滩(5.57 g/kg)碱蓬滩(2.4 g/kg)光滩(1.05 g/kg);可溶性有机碳含量为:互花米草滩(36.08 mg/kg)碱蓬滩(17.43 mg/kg)光滩(6.92 mg/kg);微生物量碳含量为:互花米草滩(52.51 mg/kg)碱蓬滩(18.27 mg/kg)光滩(13.56 mg/kg)。互花米草建群后,土壤中活性碳库含量显著增加(P0.05)。(2)土壤有机碳结构以烷氧碳和芳香碳为主,其中芳香碳的平均比例(35.85%)最高,其次为烷氧碳(32.83%)和羧基碳(20.62%),烷基碳的平均比例(10.36%)最低,其中建群5a的互花米草样地(SAF2007)土壤芳香碳、烷氧碳、烷基碳含量最高,建群23a的互花米草样地(SAF1989)土壤羧基碳含量最高。(3)互花米草盐沼土壤中烷基碳/烷氧碳为:SAF2007(0.44)SSF1989(0.43)SAF2000(0.28)SAF2011(0.27)SAF1989(0.22);疏水碳/亲水碳为:SAF2007(0.97)SSF1989(0.87)SAF2000(0.85)SAF2011(0.83)SAF1989(0.81)。烷基碳/烷氧碳在建群5a后达到最高值0.44,烷基化程度最高;疏水碳/亲水碳达到最高值0.97,土壤碳库稳定性高于其它样地。     

Methane production potential and methanogenic archaea community dynamics along the Spartina alterniflora invasion chronosequence in a coastal salt marsh

Invasion by the exotic species Spartina alterniflora, which has high net primary productivity and superior reproductive capacity compared with native plants, has led to rapid organic carbon accumulation and increased methane (CH₄) emission in the coastal salt marsh of China. To elucidate the mechanisms underlying this effect, the methanogen community structure and CH₄ production potential as well as soil organic carbon (SOC), dissolved organic carbon, dissolved organic acids, methylated amines, aboveground biomass, and litter mass were measured during the invasion chronosequence (0–16 years). The CH₄ production potential in the S. alterniflora marsh (range, 2.94–3.95 μg kg^?1 day^?1) was significantly higher than that in the bare tidal mudflat. CH₄ production potential correlated significantly with SOC, acetate, and trimethylamine concentrations in the 0–20 cm soil layer. The abundance of methanogenic archaea also correlated significantly with SOC, and the dominant species clearly varied with S. alterniflora-driven SOC accumulation. The acetotrophic Methanosaetaceae family members comprised a substantial proportion of the methanogenic archaea in the bare tidal mudflat while Methanosarcinaceae family members utilized methylated amines as substrates in the S. alterniflora marsh. Ordination analysis indicated that trimethylamine concentration was the primary factor inducing the shift in the methanogenic archaea composition, and regressive analysis indicated that the facultative family Methanosarcinaceae increased linearly with trimethylamine concentration in the increasingly sulfate-rich salt marsh. Our results indicate that increased CH₄ production during the S. alterniflora invasion chronosequence was due to increased levels of the non-competitive substrate trimethylamine and a shift in the methanogenic archaea community.     

互花米草入侵对滨海湿地生态系统的影响研究进展

滨海湿地受海、陆生态系统的交互影响,是典型的生态脆弱带和敏感区。互花米草是全球海岸带最为成功的外来入侵物种,对滨海湿地生态系统已经产生了重要的影响。本文对已有相关研究进行了系统梳理,揭示了互花米草入侵对滨海湿地生态系统生物地球化学循环(碳循环、氮循环、磷循环及土壤重金属迁移)和入侵地生物群落(微生物、植物和动物)的影响。并在此基础上对今后研究的重点提出了展望: 加强互花米草入侵对滨海湿地生态系统健康影响机制研究;重点关注全球变化背景下互花米草群落与湿地环境互馈耦合;开展长时序定位监测,厘清滨海湿地生态系统对互米草不同入侵阶段的响应差异,以期对互花米草的生态利用和治理提供指导。     

Effects of salt marsh invasion by Spartina alterniflora on sulfate-reducing bacteria in the Yangtze River estuary,China

To investigate how plant invasion affects sulfate-reducing bacteria (SRB) responsible for sulfate reduction, we conducted a comparative study of diversity and composition of SRB in rhizosphere soils of invasive exotic species (Spartina alterniflora) and two native species (Phragmites australis and Scirpus mariqueter) on Jiuduansha Island located in the Yangtze River estuary, China. Throughout the growing season, profiles of DGGE fingerprints of SRB had distinct variations in relation to phenological stages of these three plant species. The higher richness and abundance of SRB in the rhizospheres of native plants mainly occurred when the plants were in vegetative growth and reproductive stages. However, the higher richness and abundance of SRB also occurred in the late growing season (senescent stage) of S. alterniflora rhizosphere, during which Desulfobulbus, Desulfuromonas, Desulfovibrio, and Firmicutes were dominant. Our results adding to our previous studies suggested that abundant SRB in late stage might have close relationships with decomposition of soil organic matters produced by S. alterniflora.     

Effects of saltmarsh invasion by Spartina alterniflora on arthropod community structure and diets

Invasive plants strongly affect physical and biotic environments of native ecosystems. Insects and other arthropods as one of the major components of many ecosystems are very sensitive to subtle changes in abiotic and biotic environments. We examined the effects of exotic Spartina alterniflora invasion on community structure and diets of arthropods in a saltmarsh previously dominated by native Phragmites australis in Yangtze River estuary through net sweeping and plant harvesting methods and stable isotope analysis. Our results showed that diversity indices were not significantly different between exotic and native plant communities, but the total abundance of insects estimated through plant harvesting method was found to be lower in Spartina monoculture than that in Phragmites monoculture. Community structure of insects in Spartina monoculture was dissimilar to that in Phragmites monoculture and Phragmites–Spartina mixture. Moreover, stable carbon isotope patterns of arthropods were significantly different between Phragmites and Spartina monocultures. Although some native arthropods (perhaps generalists) shifted their diets, many native taxa did prefer Phragmites to Spartina even in Spartina monoculture. Spartina invasions resulted in reduced abundances of some arthropds, and increased dominance of others feeding preferably on Spartina. This study provides evidence that invasive plants can change the community structure and diets of native arthropods, which will eventually alter the arthropod food web, and affect the integrity and functioning of native ecosystems within a nature reserve that has been set aside for conserving the native biodiversity and maintaining the ecosystem integrity. In this sense, Spartina invasions in the Yangtze River estuary need to be managed appropriately.     

Oxygen loss from Spartina alterniflora and its relationship to salt marsh oxygen balance

Spartina alterniflora has been reported to lose significant amounts of oxygen to its rhizosphere with potentially important effects on salt-marsh biogeochemical cycling and plant productivity. The potential significance of this oxidative pathway was evaluated using laboratory split-chamber experiments to quantify oxygen loss from intact root systems under a wide variety of pre-treatment and incubation conditions including antibiotics to inhibit microbial respiration. The aerenchyma system of S. alterniflora was found to transport O₂, N₂, Ar, and CH₄ from above-ground sources to its below-ground roots and rhizomes. While non-respiratory gases were observed to move from the lacunae to water bathing the root systems, net O₂ loss did not occur; instead oxygen present outside of the roots/rhizomes was consumed. Net oxygen loss was found when resistance to gas transport was reduced in the lacunae-rhizosphere pathway by placing the root systems in a gas phase and when plant respiration was significantly reduced. Root system respiration appeared to be the major variable in the plant oxygen balance. When root and rhizome respiration was inhibited using poisons or lowered by cooling, the oxygen deficit was greatly reduced and oxygen loss was indicated. The effect of seasonal temperature changes on root system oxygen deficit presents a possible explanation as to why Spartina produces root systems with respiration rates that cannot be supported by gas transport. Overall, while oxygen loss from individual plant roots is likely, integrating measured root system oxygen loss with geochemical data indicates that the mass amount of oxygen lost from S. alterniflora root systems is small compared to the total oxygen balance of vegetated salt marsh sediments.     

芦苇在微咸水河口湿地甲烷排放中的作用

本研究以长江口微咸水河口湿地为研究对象,通过模拟潮汐淹没和改进的静态箱法,针对芦苇在不同淹水条件下对甲烷的传输作用进行了研究。结果表明,长期淹没样点割除芦苇前后平均甲烷释放分别为1.60 mgCH4 m-2h-1和0.50 mgCH4 m-2h-1,而短期淹没样点割除芦苇前后平均甲烷释放分别为0.94 mgCH4 m-2h-1和0.55 mgCH4 m-2h-1。芦苇的存在增加了大约41.5%—69%的甲烷释放,割除芦苇导致长期淹没样点甲烷释放显著地减少。从淹水前到淹水后的一个潮周期内,长期淹没样点和短期淹没样点的甲烷释放分别在淹没期达到最小和最大释放(1.21 mgCH4 m-2h-1 vs. 1.18 mgCH4 m-2h-1),说明芦苇对甲烷的传输作用受到潮汐淹没程度的影响。实验室针对芦苇自身产甲烷的可能性进行的离体芦苇茎干和叶片的甲烷释放研究发现,离体茎干释放大约0.7 μL/L和0.2 μL/L甲烷,且下部茎干的甲烷释放量要明显高于上部茎干和叶片,随后均不再增加。结果进一步证实芦苇增加的甲烷排放来自对土壤气体的传输。同时,传输作用主要发生在植株的下部茎干。     

Carbon assimilation in contrasting streamside and inland Spartina alterniflora salt marsh

Carbon assimilation and standing crop biomass of Spartina alterniflora were studied in a contrasting streamside and inland salt marsh in Louisiana Gulf coast, USA. A substantially lower leaf dry weight, leaf area index, and standing crop biomass were recorded for inland plants as compared to streamside plants. Net assimilation rates ranged between 8 to 25 mol m^–2 s^–1 for streamside and between 4 to 19 mol m^–2 s^–1 for inland plants. The average photosynthetic rates were significantly lower for inland plants which were growing in an apparently more stressed environment. In addition, the differences were more profound with progression of the growing season. The reduced photosynthetic activity in the inland marsh was attributed to greater soil waterlogging, increased anaerobic root respiration, plant toxins (sulfide), restricted nutrient uptake or a combination of these factors.Abbreviations E_h = redox potential - g_w = stomatal conductance - LAI = leaf area index - P_n = net photosynthesis - PPFD = photosynthetic photon flux density - T₁ = leaf temperature     

不同发育时间的互花米草盐沼对大型底栖动物群落的影响

2004-2006年对长江口崇明东滩湿地芦苇(Phragmites australis)盐沼和不同发育时间的互花米草(Spartina alterniflora)盐沼的大型底栖动物群落特征进行分析研究.结果表明:互花米草盐沼发育初期,大型底栖动物群落以腹足类为主,物种丰富度(D=2.18)和多样性(H′=2.19)均低于芦苇盐沼(D=2.61, H′=2.29);随着时间的推移,互花米草与本地生物逐渐形成互动和稳定的格局,大型底栖动物群落组成中多毛类的种类逐渐上升(由3种变为6种),物种数和物种丰富度也上升,从而逐步形成新的大型底栖动物群落,物种丰富度(D=2.70)和多样性(H′=2.48)逐渐上升并高于芦苇盐沼(D=2.19, H′=2.09);从大型底栖动物群落的重新形成到稳定阶段,需要若干年的时间.     

闽江河口互花米草不同入侵年限湿地土壤磷赋存形态

选择闽江河口鳝鱼滩互花米草不同入侵年限湿地(SA₁,5～6年;SA₂,8～10年;SA₃,12～14年)为对象,基于时空互代法研究了互花米草入侵对湿地土壤磷赋存形态的影响。结果表明: 不同入侵年限互花米草湿地土壤中难分解态磷(HCl-Pi、Residual-P)含量的占比最高(46.4%～46.7%),中等易分解态磷(NaOH-Pi、NaOH-Po、Sonic-Pi)次之(40.0%～44.0%),而易分解态磷(Resin-Pi、NaHCO₃-Pi、NaHCO₃-Po)最低(9.5%～13.3%)。随着互花米草入侵年限的增加,湿地土壤磷赋存形态及其空间分布特征也发生明显改变,中等易分解态磷、难分解态磷和总磷含量整体上均呈增加趋势,而易分解态磷含量呈降低趋势。相对于SA₁,SA₂的中等易分解态磷、难分解态磷和总磷含量分别增加了11.5%、9.7%和10.5%,而SA₃分别增加了24.8%、13.2%和13.5%。互花米草入侵年限的增加显著改变了湿地土壤磷的赋存形态特征,这主要取决于电导率(EC)、pH值及粒度等关键因子的变化。近年来,闽江河口开展的互花米草定期刈割治理在一定程度上减少了残体向土壤归还磷养分的能力,降低了土壤中易分解态磷的养分供应。