长白山原始针叶林沼泽湿地生态系统碳储量

采用年轮分析及相对生长方程法与碳/氮分析仪测定法,测定温带长白山沿湿地过渡带环境梯度依次分布的5种典型原始沼泽类型(草丛沼泽-C、灌丛沼泽-G、落叶松泥炭藓沼泽-LN、落叶松藓类沼泽-LX和落叶松苔草沼泽-LT)生态系统碳储量(植被和土壤)、植被净初级生产力与年净固碳量,定量评价温带森林湿地固碳能力及其长期碳汇作用,并揭示其沿过渡带水分环境梯度的空间分异规律。结果表明:①5种天然沼泽类型的植被碳储量(3.18±1.70)—(112.2±18.3) tC/hm~2沿过渡带环境梯度总体上呈递增趋势,针叶林沼泽显著高于C和G 12.2—34.3倍,G高于C 0.6倍,且LX和LT显著高于LN 0.3—0.6倍;②土壤碳储量(296.3±42.2)—(824.50±50.79) tC/hm~2沿过渡带环境梯度总体上呈递减趋势,C显著高于G和针叶林沼泽30.8%—178.3%(P0.05),G显著高于针叶林沼泽38.7%—112.8%,且LN和LT显著高于LX 32.8%—53.4%;③生态系统碳储量(408.42±57.53)—(827.52±50.96) tC/hm~2沿过渡带环境梯度总体上也呈递减趋势,C显著高于G和针叶林沼泽30.2%—102.7%,G显著高于针叶林沼泽21.5%—55.6%,且LN和LT显著高于LX 18.8%—28.0%;④5种沼泽类型的植被净初级生产力与年净固碳量分布在(5.74±0.08)—(10.98±1.67) t hm~(-2) a~(-1)和(2.44±0.03)—(5.17±0.83)tC hm~(-2) a~(-1),其中,LX和LT的植被净初级生产力显著高于C、G和LN 61.2%—91.3%和34.5%—59.6%;而在植被年净固碳量方面,3种针叶林沼泽类型均显著高于C和G 28.7%—111.9%和19.4%—96.6%。故长白山5种天然沼泽类型的植被净初级生产力与年净固碳量沿湿地过渡带环境梯度总体上呈现出阶梯式递增趋势,且仅有LX和LT达到了中国陆地植被及全球陆地植被平均固碳水平。因此,温带长白山沼草丛沼泽和灌丛沼泽长期碳汇作用强于森林沼泽,湿地碳汇管理实践中应重视草丛沼泽和灌丛沼泽的保护与恢复。     

闽江河口芦苇沼泽和短叶茳芏沼泽生态系统含碳温室气体的年收支

河口感潮沼泽是全球重要的蓝碳生态系统,具有很强的固碳能力。碳收支研究是量化生态系统碳源/汇过程及固碳规模的基础。本研究运用透明箱和不同遮光率布遮盖+红外气体分析仪/气相色谱相结合的方法,模拟不同光照条件,测定闽江河口鳝鱼滩半咸水芦苇沼泽和短叶茳芏沼泽的瞬时净生态系统二氧化碳（CO₂）交换量（net ecosystem exchange,NEE）、生态系统呼吸（ecosystem respiration,ER）以及甲烷（CH₄）排放通量,并通过对总光合吸收量（gross ecosystem exchange,GEE）与光合有效辐射的拟合以及ER与气温的拟合,外推2个沼泽生态系统CO₂气体在月、年尺度上的NEE和ER,评估其年固碳量。2个沼泽生态系统的NEE和ER均具有明显的季节变化,春夏秋季为大气中CO₂的汇,而冬季则转化为大气中CO₂的源,芦苇沼泽年尺度固碳能力显著高于短叶茳芏沼泽。芦苇沼泽与短叶茳芏沼泽CH₄排放通量差异不显著。综合考虑CH₄排放,闽江河口鳝鱼滩半咸水芦苇沼泽、短叶茳芏沼泽生态系统年固碳量分别为（5371.52±336.97） g CO₂-eq/m²和（2730.32±503.67） g CO₂-eq/m²。研究表明：闽江河口半咸水沼泽湿地在年尺度上是一个较强的碳汇,在缓解全球变暖方面发挥着重要的角色。     

1971—2020年盘锦芦苇湿地净生态系统生产力及其影响因子

滨海河口湿地生态系统具有很强的储碳和固碳能力，正确评估其固碳变化及其环境影响因子是滨海河口湿地科学保护与管理的基础。本研究以盘锦芦苇湿地为对象，采用陆地生态系统模型，结合Mann-Kendall突变检验法、统计分析方法和情景模拟试验，分析了1971—2020年芦苇湿地净生态系统生产力(NEP)的变化特征、稳定性、未来趋势以及环境影响因子对NEP的贡献率。结果表明：1971—2020年盘锦芦苇湿地的年均NEP为415.51 g C·m^-2·a^-1,以1.7 g C·m^-2·a^-1的速率稳定增长，且未来仍呈持续增加趋势。NEP在春、夏、秋和冬季的多年均值分别为33.95、418.05、-18.71和-17.78 g C·m^-2·a^-1,增长速率分别为0.35、1.26、0.14和-0.06 g C·m^-2·a^-1。未来春季和夏季的NEP呈增加趋势，而秋季和冬季的NEP呈减少趋势。不同尺度下环境因子对盘锦芦苇湿地NEP...     

大兴安岭天然沼泽湿地生态系统碳储量

采用碳/氮分析仪测定法与标准木解析法,研究大兴安岭5种典型天然沼泽湿地(草丛沼泽、灌丛沼泽、毛赤杨沼泽、白桦沼泽和落叶松沼泽)的生态系统碳储量(植被和土壤)、净初级生产力、植被年净固碳量及其沿沼泽至森林方向过渡带水分环境梯度的分布格局,揭示其空间变异规律性,并定量评价寒温带5种典型天然沼泽湿地的碳储量与固碳能力及其长期碳汇作用。结果表明:①5种天然沼泽湿地的植被碳储量分布在(0.48±0.08)—(8.33±0.66)kgC/m2之间,沿过渡带环境梯度呈递增趋势;②土壤碳储量分布在(19.21±6.17)—(38.28±4.86)kgC/m2之间,沿过渡带环境梯度却呈递减趋势;③生态系统碳储量分布在(27.54±7.16)—(38.76±4.58)kgC/m2之间,沿过渡带环境梯度基本呈恒定分布规律性,且以湿地土壤碳储量占优势地位(69.8%—98.8%);④植被净初级生产力分布在(0.68±0.10)—(1.08±0.12)kg.m-.2a-1之间,毛赤杨沼泽最高,草丛沼泽、灌丛沼泽、白桦沼泽居中,落叶松沼泽最低,且总体上低于温带森林湿地而高于寒温带天然落叶松林;⑤植被年净固碳量分布在(0.32±0.09)—(0.51±0.06)kgC.m-.2a-1,毛赤杨沼泽最高(高于全球植被平均年净固碳量)、灌丛沼泽和白桦沼泽居中(达到或接近全球平均值)、草丛沼泽和落叶松沼泽最低(略低于全球平均值),故这5种沼泽湿地均属于碳汇功能相对较强的湿地植被类型。     

崇明东滩湿地自然植被演替过程中储碳及固碳功能变化

采用实地调查与实验室测定相结合的方法,研究了崇明东滩湿地植被演替过程中储碳、固碳功能的变化.结果表明：不同演替阶段的湿地植被的现存碳储量及其分配格局特征存在较大差异.先锋物种海三棱藨草的现存碳储量仅占芦苇现存碳储量的13%;地下根茎为芦苇现存碳储量的主要场所,而地上部分是海三棱藨草碳储量的主要场所.处于潮滩湿地演替中后期的芦苇群落比处在生态演替早期的海三棱藨草群落具有更强的固碳能力,芦苇群落和海三棱藨草群落的年固碳能力分别为(1.63±0.39) kg·m^-2和(0.63±0.28) kg·m^-2,说明随着海三棱藨草群落向芦苇群落演替,其固碳能力不断增强.     

中国陆地生态系统土壤有机碳变化研究进展

通过文献资料, 对中国陆地生态系统土壤有机碳变化研究进行评述. 20世纪80年代初至21世纪初, 中国森林、草地、灌丛和农田土壤有机碳库合计年均增加(71±19) Tg/a, 三江平原沼泽湿地垦殖导致土壤有机碳损失(6±2) Tg/a. 该结果存在极大的不确定性, 尤其是对森林、灌丛和草地碳库变化的估计. 未来研究需重点关注土地利用变化及其碳源、碳汇效应, 放牧管理对草地土壤有机碳库的影响, 灌丛和非森林树木(经济林、防护林及四旁绿化造林)土壤有机碳变化估算, 深层土壤有机碳变化的测定和估算, 中国土壤的固碳潜力及陆地生态系统碳收支模型开发.     

中国湿地生态系统固碳现状和潜力

固碳是湿地重要的生态系统服务功能之一.通过资料调研和分析,对我国湿地的固碳速率和固碳潜力进行了评价.结果表明,我国各种类型沼泽湿地总的固碳能力为4.91TgC·a-1.红树林湿地和沿海盐沼的固碳速率最高.我国湖泊湿地的固碳潜力为1.98TgC·a-1, 其中东部平原地区湖泊湿地的固碳速率和能力最大.恢复湿地可以提高我国陆地生态系统的固碳潜力,其中退田还湖和退田还泽的固碳潜力分别为30.26 GgC·a-1和0.22 GgC·a-1,而湿地保护工程在2005～2010年之间的固碳潜力为6.57 GgC·a-1.     

长白山园池沼泽湿地碳源/汇沿湖岸至高地环境梯度变化

湖泊湿地具有长期储碳能力，对区域碳循环具有重大贡献，但有关湖泊湿地碳源汇对气候变化如何响应尚不清楚。为探究高海拔区湖岸湿地碳源/汇对气候变化的响应规律，利用静态箱-气相色谱法及相对生长方程法，研究长白山园池沿岸5种天然沼泽类型(芦苇沼泽、苔草沼泽、杜鹃沼泽、柴桦沼泽、落叶松沼泽)的土壤异养呼吸碳排放(CO₂和CH₄)、植被固碳及其相关环境因子(温度、水位等),依据生态系统净碳收支平衡，量化各沼泽类型的碳源/汇和全球增温潜势(GWP),分析其沿湖岸至高地水分环境梯度变化规律及形成机制。结果表明：处于湖岸至高地水分环境梯度下部生境的草类沼泽(芦苇沼泽和苔草沼泽)为弱源(-1.018和-0.090 t C·hm^-2·a^-1),中部生境的灌丛沼泽(杜鹃沼泽和柴桦沼泽)为强汇或弱汇(1.956和0.239 t C·hm^-2·a^-1),上部生境的森林沼泽(落叶松沼泽)为强源(-3.214 t C·hm^-2·a^-1),且其空间...     

火干扰对小兴安岭白桦沼泽和落叶松-苔草沼泽凋落物和土壤碳储量的影响

火干扰在湿地生态系统中起着重要的作用,尽管湿地占全球陆地生态系统很小一部分,却是陆地生态系统一个重要的碳汇。然而关于火干扰对我国小兴安岭森林沼泽生态系统土壤碳库影响的研究鲜有报道。因此选取两种森林沼泽典型地段进行土壤取样,研究火干扰对小兴安岭白桦(Betula platyphylla)沼泽和落叶松(Larix gmelinii)-苔草(Carex schmidtii)沼泽地表凋落物和土壤碳储量(0—50 cm)的影响。研究结果表明:①重度火烧使得白桦沼泽地表凋落物量和碳储量降低了36.36%(0.50 kg/m2)和35.52%(0.23 kg C/m2),而轻度火烧无显著影响;轻度火烧和重度火烧落叶松-苔草沼泽地表凋落物量和碳储量分别减少了45.32%(0.99 kg/m2)和44.66%(0.42 kg C/m2)、50.42%(1.10 kg/m2)和49.71%(0.47 kg C/m2);②白桦沼泽和落叶松-苔草沼泽两者对照样地、轻度火烧样地、重度火烧样地的土壤碳储量(0—50 cm)分别为(23.55±6.34)kg C/m2、(18.50±8.16)kg C/m2、(32.50±7.22)kg C/m2和(20.89±2.59)kg C/m2、(23.52±16.03)kg C/m2、(21.75±6.60)kg C/m2,然而火干扰对两种森林沼泽土壤碳储量(0—50 cm)影响不显著。研究结果可为我国东北开展森林湿地计划火烧和碳管理提供理论依据。     

近30年来黄河三角洲植被净初级生产力时空特征及主要影响因素

我国拥有丰富的海岸带蓝色碳汇,准确把握海岸带蓝碳生态系统净初级生产力(NPP)状况,辨识不同人为干扰下蓝碳生态系统NPP的时空分布特征具有重要意义。以黄河三角洲为研究区,以近30a(1987年、1995年、2005年、2016—2017年)为时间尺度,通过遥感手段和现场调查,对黄河三角洲NPP时空变化特征及其主要影响因素进行研究。结果显示:(1)近30年来研究区NPP均值和总量呈现先下降又略微增长的特征,2016—2017年度NPP平均值为294.38g C m~(-2)a~(-1),总量为710.05Gg C/a,表现出显著的季节差异。(2)研究区NPP在各行政区、保护区和地表覆盖类型中均表现出了明显的空间分异性;2016—2017年度NPP分区结果显示,不同分区面积由大到小依次为中生产力区(49.5%)、低生产力区(38.3%)和高生产力区(12.1%)。(3)研究区NPP的时空分异性是地表覆盖类型和植被生长状况共同影响的结果,海陆交互作用、开发利用活动和近年来的生态建设是NPP时空变化的主要影响因素。(4)湿地植被和农田是研究区碳汇的主要贡献者,20世纪90年代以来二者NPP均值逐渐上升,在2016—2016年度分别达570.28g C m~(-2)a~(-1)和335.92g C m~(-2)a~(-1);近30年来,湿地植被NPP总量逐渐减少,农田NPP总量则逐渐增加。湿地植被是海岸带蓝碳的典型载体,农田作为位于滨海地区、由湿地植被转化而来、本身具有较高固碳能力和潜力的碳汇类型,可作为海岸带蓝碳的重要补充。     

辽河三角洲河口湿地典型芦苇群落最大光能转化率模拟

CASA模型是研究宏观尺度净初级生产力最常用的模型之一,最大光能转化率是CASA模型的最关键参数,但他难以通过测量和试验获得,只能通过模拟求取。利用CASA模型反演了辽河三角洲河口湿地典型芦苇群落的最大光能转化率,并针对遥感和气象数据的可能误差对最大光能转化率的影响进行了敏感性分析。模拟结果表明:芦苇群落具有极高的碳转化能力,最大光能转化率达1.667g C/MJ,实际转化率达到0.957—1.102g C/MJ。敏感性分析结果显示最大光能转化率模拟值对总辐射和NDVI表现出较强的敏感性,由总辐射误差带来的最大光能转化率相对变化幅度仅为-4.14%—4.56%;模拟结果对NDVI的敏感性随着NDVI的增加而降低,即便是以误差30%考虑,模拟值仍然比较集中在样点的变化范围之内,这些结果表明模拟的芦苇最大光能转化率具有一定的稳定性和可靠性。     

潮汐作用和干湿交替对盐沼湿地碳交换的影响机制研究进展

潮汐盐沼湿地具有高的碳积累速率和低的CH_4排放量,是地球上最密集的碳汇之一。同时,气候变暖和海平面上升可能使得盐沼湿地更迅速的捕获和埋藏大气中的CO_2,因此盐沼湿地的"蓝碳"在减缓气候变化方面扮演着重要角色。潮汐盐沼湿地与其他湿地类型最大的区别和最显著的特征是在周期性潮汐作用下出现淹没和暴露,同时伴随盐分表聚与淋洗的干湿交替,可能是控制盐沼湿地碳交换过程和碳收支平衡的关键因素。但是,当前潮汐水动力过程及其周期性干湿交替对盐沼湿地碳交换关键过程和碳汇形成机制的影响尚不十分清楚。另外,以往相关研究通常孤立地考虑垂直方向上CO_2或CH_4交换或横向方向上的可溶性有机碳(DOC)、可溶性无机碳(DIC)、颗粒有机碳(POC)交换通量对盐沼湿地碳平衡进行评估,显然不够准确。因此,为了精确评估和预测盐沼湿地蓝碳的吸存能力,必须系统研究潮汐不同阶段对盐沼湿地碳交换过程的影响;深入分析潮汐作用下盐沼湿地碳交换的微生物机制;关注潮汐水动力作用对盐沼湿地DOC、DIC和POC产生、释放以及向邻近水体输出的影响;阐明潮汐作用对盐沼湿地碳汇形成机制的影响;纳入潮汐水动力过程作为变量,建立盐沼湿地碳循环模型。     

中国滨海盐沼湿地碳收支与碳循环过程研究进展

滨海盐沼湿地由于其较高的初级生产力和较缓慢的有机质降解速率而成为缓解全球变暖的有效蓝色碳汇,近年来引起全球范围内的热切关注.我国滨海盐沼湿地分布较广,国内学者对滨海盐沼湿地碳循环及碳收支研究取得了一定进展,深入研究滨海盐沼湿地碳循环有助于对全球碳循环及全球变化的理解,并为利用滨海湿地进行碳的增汇减排提供科学依据.主要从我国滨海盐沼湿地碳循环主要观测方法、碳收支与碳循环过程及特点、碳库的组成与影响因素、气态碳的输入输出、潮汐作用对其碳收支的影响这5个方面出发,对国内的滨海盐沼湿地碳循环与碳收支的研究进展进行了归纳总结,并对今后的研究方向给出如下建议:(1)加强滨海盐沼湿地土壤碳库在深度上和广度上的研究;(2)标准化滨海盐沼湿地碳储量、碳通量的量化方法和观测技术;(3)在研究尺度上要宏观、微观并重,同时加强长期原位监测湿地碳通量的变化与室内模拟研究;(4)量化在潮汐影响下滨海盐沼湿地碳与邻近生态系统之间的横向交换通量.只有对我国滨海盐沼湿地碳库收支进行更准确的评估和长期的碳库动态变化监测,方可进一步认识我国盐沼湿地对全球气候变化的影响及其反馈作用,这对于预测全球变化及制定湿地碳储备功能的提升策略具有重要的意义.     

Primary evaluation of carbon sequestration potential of wetlands in China

As one of the important ecosystem services of wetlands, carbon sequestration potential of lakes and swamps in China were investigated. Significant differences were found among the carbon sequestration potential of various lakes, determined by natural conditions and human disturbance. In this study, swamps had a carbon sequestration potential of 4.90 TgC, much higher than lakes in China. Mangrove and coastal marsh have the highest carbon sediment rate among swamps. Carbon sequestration potential in returning farms to lakes and swamps was 30.26 and 0.22 GgC. … a^?1, respectively. Under the ongoing national wetland conservation action plan in China, the carbon sequestration potential of wetland restoration was 6.57 GgC. … a^?1. Protection and restoration measurements can improve carbon sequestration potential of wetlands.     

The Effects of Phragmites Removal on Nutrient Pools in a Freshwater Tidal Marsh Ecosystem

Selected nitrogen and phosphorus pools in two freshwater tidal marsh ecosystems on the lower Connecticut River were measured relative to Phragmites, Typha and mixed native wetland plant cover types. For both the Chapman Pond Preserve and Chester Creek Marsh, significant differences were found between plant cover types in porewater ammonium and phosphate for some months during the 1998 growing season; porewater nitrate was always below the detection limit. At Chapman Pond, no significant differences were detected between Phragmites and Typha for plant tissue N concentrations. The standing stock of nitrogen was higher in Phragmites stands, however, owing to its greater aboveground biomass. No significant difference was found between plant cover types for total soil N at Chapman Pond, but KCl extractable ammonium was higher in the mixed cover type than Phragmites or Typha. The results of this study suggest that Phragmites is affecting nutrient pools in freshwater tidal marshes, a result that should be considered in future management design.     

Living Shorelines: Coastal Resilience with a Blue Carbon Benefit

Living shorelines are a type of estuarine shoreline erosion control that incorporates native vegetation and preserves native habitats. Because they provide the ecosystem services associated with natural coastal wetlands while also increasing shoreline resilience, living shorelines are part of the natural and hybrid infrastructure approach to coastal resiliency. Marshes created as living shorelines are typically narrow (< 30 m) fringing marshes with sandy substrates that are well flushed by tides. These characteristics distinguish living shorelines from the larger meadow marshes in which most of the current knowledge about created marshes was developed. The value of living shorelines for providing both erosion control and habitat for estuarine organisms has been documented but their capacity for carbon sequestration has not. We measured carbon sequestration rates in living shorelines and sandy transplanted Spartina alterniflora marshes in the Newport River Estuary, North Carolina. The marshes sampled here range in age from 12 to 38 years and represent a continuum of soil development. Carbon sequestration rates ranged from 58 to 283 g C m^-2 yr^-1 and decreased with marsh age. The pattern of lower sequestration rates in older marshes is hypothesized to be the result of a relative enrichment of labile organic matter in younger sites and illustrates the importance of choosing mature marshes for determination of long-term carbon sequestration potential. The data presented here are within the range of published carbon sequestration rates for S. alterniflora marshes and suggest that wide-scale use of the living shoreline approach to shoreline management may come with a substantial carbon benefit.     

Exotic Spartina alterniflora provides compatible habitats for native estuarine crab Sesarma dehaani in the Yangtze River estuary

Although the impact of plant invasions on benthic communities, especially burrowing crabs, has received increasing attention, the results from past studies are mixed. The exotic plant Spartina alterniflora has become the most abundant species in the salt marshes of the Yangtze River estuary since it was first found just over a decade ago, but its effects on crabs in the salt marshes is largely unknown. To examine whether the invasions of this exotic plant affected native crabs, we compared the biomass and abundance of the dominant burrowing crab Sesarma dehaani in an exotic Spartina marsh, native Phragmites australis marsh and mudflats of the Yangtze River estuary, China. To explain the differences of S. dehaani populations between different habitats, feeding preference of S. dehaani for Spartina and Phragmites was investigated. Results showed crab abundance and biomass in the Spartina marsh were significantly greater than those in the Phragmites marsh and mudflats. Soil water content and plant community characteristics in the Spartina marsh also significantly differed in the Phragmites marsh and mudflats. Moreover, the feeding preference experiment showed that crabs consumed Spartina more than twice as much as Phragmites. In summary, this study showed that Spartina provided compatible habitats for native crab S. dehaani through offering suitable food source and moderate environmental conditions.     

滨海盐沼湿地蓝色碳汇功能、形成机制及其增汇潜力

盐沼湿地具有很高的碳捕获与存储能力, 是缓解全球变暖的有效蓝色碳汇(蓝碳)。未来气候变暖和海平面上升可能增加盐沼湿地的固碳能力, 其蓝碳功能越来越受到国际社会的重视。该文重点围绕盐沼湿地蓝碳形成的关键过程、光合碳分配过程及影响机制、碳沉积埋藏特征及其来源解析、盐沼湿地土壤碳库稳定性及其微生物机制、盐沼湿地蓝碳过程动态模拟及其增汇潜力等5个方面进行综述。在此基础上, 针对当前研究的不足, 提出今后的研究中需要进一步探究盐沼湿地植被海陆梯度分布格局对碳吸收能力和碳分配的影响, 土壤有机碳沉积和埋藏速率及其对全球变化的响应, 盐沼湿地土壤碳库的稳定性及其横向碳流动, 气候变化和海平面上升背景下盐沼湿地蓝碳模拟与增汇潜力评估, 以及盐沼湿地蓝碳的增汇技术和途径。以期为深入理解盐沼湿地蓝碳形成过程与机制, 预测全球变化背景下盐沼湿地蓝碳功能的潜在变化趋势和制定蓝碳增汇途径提供理论支持, 助力碳达峰、碳中和目标实现。     

造林再造林、森林采伐、气候变化、CO2浓度升高、火灾和虫害对森林固碳能力的影响

森林生态系统具有吸收大气CO_2、缓解气候变化的作用。造林再造林作为京都议定书认可的大气CO_2减排途径,是提高森林固碳能力的低成本、有效策略。森林生态系统固碳能力还受森林采伐、气候变化、大气CO_2浓度升高、火灾以及虫害等自然因素和人为因素的强烈影响。综述了全球和区域造林再造林的固碳能力,以及目前较受重视的一些因素(森林采伐、气候变化、大气CO_2浓度升高、火灾以及虫害)对森林生态系统固碳能力的影响。结果表明,全球造林再造林固碳能力为148—2400TgC/a;采伐造成的全球森林碳损失最大为900 TgC/a,其次是火灾为300 TgC/a,虫害造成森林碳释放最小在2—107 TgC/a之间。建议在今后的研究中,应关注固碳措施和多种环境因素对森林生态系统固碳能力,尤其是对森林土壤固碳能力的影响,严格控制森林采伐和火灾发生,以及减少或避免造林再造林活动引起的碳泄漏。     

Behavioral Responses and Interactions of Estuarine Animals With an Invasive Marsh Plant: A Laboratory Analysis

Invasion by Phragmites australis into tidal marshes previously dominated by Spartina alterniflora is viewed as a serious environmental threat along the Atlantic coast of the US, but little is known about the relative habitat value of the two plants for most estuarine species. This study was designed to investigate behavioral responses, in the laboratory, of three species to the two plants. Fiddler crabs, Uca pugnax, grass shrimp, Palaemonetes pugio, and larval mummichogs (killifish), Fundulus heteroclitus were introduced into aquaria with a bare area, an area with dead Phragmites stems, and an area with dead Spartina stems. All species distributed themselves equally between the Spartina and the Phragmites. The behavior of larval mummichogs in the tanks with predators was observed. In the presence and absence of stems, they utilized the surface of the water as a refuge, as well as the stems, when present. This behavior was equally as effective as being among the stems in promoting larval survival. In microcosms with blocks of marsh with living plants, fiddler crabs and grass shrimp again did not show a preference for either species of plant, while juvenile and adult mummichogs were not consistent. Small fish chose Spartina when in the small microcosm and had no preference in the large one. Large fish chose Spartina in the small microcosm and Phragmites in the large one. Predation by adult mummichogs on grass shrimp was comparable in Spartina and Phragmites microcosms, and predation on tethered shrimp was equivalent in adjacent Spartina and Phragmites marshes in the field.