江苏滨海湿地芦苇和互花米草光合特性对模拟增温的响应

滨海湿地生态系统具有较高的初级生产力,是地球生态系统主要的碳库之一。然而,气候变暖和外来物种入侵通过改变植物光合特征性能使这一碳库的稳定性存在诸多的不确定性。利用在江苏盐城芦苇湿地和互花米草湿地建设的两个增温观测站,采用便携式光合荧光测量系统研究了本土植物芦苇（Phragmites australis）和入侵物种互花米草（Spartina alterniflora）光合特性对模拟增温的响应特征和机制。光合作用日调查变化曲线显示,增温使芦苇的净光合速率（P_n）、气孔导度（G_s）、蒸腾速率（T_r）和水分利用效率（WUE）都发生了显著的下降,但互花米草的各同名参数却表现出相反的变化特征,表明增温使互花米草的生理机能增强,促进了光合作用;根据P_n和胞间CO₂浓度（C_i）的变化趋势推断互花米草和芦苇光合速率变化均为非气孔限制因素驱动。利用直角双曲线修正模型拟合的光响应曲线结果显示,芦苇增温组的光响应曲线位于对照组下方,互花米草增温组的光响应曲线位于对照组上方;增温降低了所研究植物的光补偿点（LCP）,表明增温可提高两种植物利用弱光的能力;增温增加了互花米草光补偿点（LCP）和光饱和点（LSP）间值域范围,从而揭示了增温可有效提高互花米草利用光合有效辐射的能力;增温降低了芦苇的暗呼吸速率（R_d）,芦苇受到增温的胁迫,在减缓新陈代谢的同时也减弱了光合作用,而互花米草表现出相反特征。由此推测增温条件下入侵植物互花米草同化大气CO₂的能力（即碳汇能力）优于本土植物芦苇,这也是互花米草成为入侵物种的主要原因之一。     

丛枝真菌对互花米草和芦苇氮磷吸收的影响

互花米草(Spartina alterniflora Loisel.)是我国海滨盐沼的入侵植物,与土著种芦苇(Phragmites australis)形成了广泛的竞争;已知丛枝菌根(AMF)对不同植物的生长存在差异性影响;但其对互花米草与芦苇之间的种间关系,是否对互花米草入侵芦苇群体产生作用值得探讨.研究对两物种进行了丛枝菌根接种处理,种植模式处理和盐度处理的三因素实验.结果表明:盐度增加使得单种时芦苇、混种时互花米草的AMF侵染率显著下降(p<0.05),而混种时芦苇和单种时的互花米草AMF侵染率受盐度影响不显著(p>0.05).混种时,两种植物的丛枝菌根形成均受对方影响,并且盐度升高使两种植物之间对AMF侵染率的影响发生变化,在淡水生境下混种时,芦苇的AMF侵染率比单种时降低40.5%,互花米草的AMF侵染率比单种时提高了86.9%,均差异显著(p<0.05);在低盐度下混种时芦苇的AMF侵染率比单种时降低24.7%,差异显著(p<0.05),而对互花米草的影响不显著;在高盐度下混种对芦苇的AMF侵染率影响不显著,而使互花米草的AMF侵染率显著降低,降低率比例达78.7%.在淡水生境下,丛枝菌根对芦苇和互花米草的N、P吸收均有显著的促进作用;但是在咸水生境下生长时芦苇的N、P含量主要受盐度的显著影响(p<0.05),随盐度增加而增加;虽然在咸水生境下丛枝菌根仍旧促进芦苇的N、P吸收,但其影响远小于盐度的影响,并且促进效果受到盐度的抑制;但互花米草的N、P含量不受盐度影响.由此可见,接种AMF对这两种植物的氮磷吸收有着不同程度的促进,其作用大小与侵染程度有关,且受到盐度和种植模式的影响.     

闽江河口湿地植物与土壤灰分及其影响因子分析

以闽江河口鳝鱼滩湿地生长的芦苇(Phragmitesaustralis)和互花米草(Spartina alterniflora)为研究对象,并对相应的36个土壤剖面进行取样分析,揭示它们的(厂火)分含量分布特征,并对其影响因子进行分析。研究结果表明:闽江河口鳝鱼滩湿地芦苇和互花米草各个器官(厂火)分含量的差异性明显,芦苇各部位(厂火)分含量的平均值大于互花米草;芦苇和互花米草湿地土壤(厂火)分含量的垂直分布较为类似,芦苇湿地土壤(厂火)分合量略高于互花米草湿地土壤(厂火)分含量,但两种植物土壤(厂火)分含量的差异并不显著;芦苇和互花米草湿地土壤(厂火)分含量与土壤有机碳有极其显著的负相关关系,与土壤含水量的相关性也较明显;从单一的植物类型来看,互花米草湿地土壤(厂火)分含量与容重、碳含量、含水量和盐度呈显著的相关关系,芦苇湿地土壤(厂火)分含量与土壤pH值有明显的正相关关系。     

短期模拟增温对黄河三角洲滨海湿地芦苇光响应特征的影响

黄河三角洲滨海湿地地下水位浅,淡咸水交互作用明显,其土壤水盐状况成为影响该地区生态系统关键过程的主要因子。另外,随着气候变暖,黄河三角洲在过去50年(1961—2010年)进入显著升温阶段,温度升高直接或间接影响着植物的光合作用和光响应特征,从而影响黄河三角洲滨海湿地的演变。采用红外辐射加热器模拟增温,分析了增温对黄河三角洲滨海湿地生长季(2015年5月初—2015年10月底)芦苇光响应特征的影响。根据土壤含水量波动情况生长季可分为3个时期,即干旱期、淹水期和湿润期。结果表明,干旱期,10 cm土壤温度升高3.3℃,土壤水分含量升高了9.4%,土壤盐分含量升高了16.7%;盐分增加使芦苇叶片在强光下发生光抑制,并且显著降低最大光合速率(Pnmax)、暗呼吸速率(Rd)、光补偿点(LCP)和光饱和点(LSP)。淹水期,增温对10 cm土壤温度、湿度和盐分均无显著影响,过饱和的水分状况限制叶片光合速率,使得Pnmax达到最低。湿润期,10 cm土壤温度显著升高3.0℃,土壤含水量升高了2.9%,土壤盐分无显著差异;这一阶段,温度升高促进中强光下芦苇叶片的光合速率;同时叶片Pnmax、Rd和LSP分别增加27.7%、14.9%和23.3%。从整个生长季来看,增温使土壤温度显著升高2.9℃,土壤盐分含量升高7.0%,而对光合参数无显著影响。由此可见,在滨海湿地生态系统中,增温对光合作用的影响受土壤水盐状况的控制。     

实验室模拟滨海盐沼潮滩高程对互花米草生长的影响

为探究滨海盐沼湿地潮滩高程对互花米草生长的影响,设置六组不同高度的土柱,通过移栽互花米草进行模拟实验,研究不同高程带来的土壤水盐差异及植株生长响应情况.结果表明:(1)土壤含水率随高程的增加呈现出明显降低趋势,30 cm高程含水率最高,为46.4％,180 cm高程含水率最低,为34.1％,土壤孔隙水盐度随高程变化的趋...     

氮水平和竞争对互花米草与芦苇叶特征的影响

 互花米草 (Spartina alterniflora) 和芦苇 (Phragmites australis) 是滨海盐沼湿地的多年生草本植物,从世界范围来看,它们二者具有区域性的相互入侵特征,因此研究生境条件对两物种互侵机制的影响是一个十分有意义的生态学命题。该文运用随机区组实验设计方法,模拟海滩环境、构建人工种群、控制可变因子,研究了外来种互花米草与本地种芦苇分别单种和混种时,叶特征对不同氮水平、不同植株密度的响应。结果表明：随着氮水平的升高,互花米草和芦苇的叶面积无论是在单种还是混种情况下都显著增加 (p<0.05),但混种条件下芦苇的叶面积在高氮水平下增幅减少,这与高氮状况下互花米草与芦苇的竞争加剧有关;氮水平对单种中两种植物的叶数影响最显著 (p<0.01),对混种中互花米草的叶数和芦苇的叶宽影响最大 (p<0.05)。植株密度增加导致种内和种间竞争加剧,无论在单种还是混种处理下,都造成两种植物叶面积的显著减少 (p<0.05)。单种处理中, 两物种的叶数受密度的响应最显著 (p<0.05);而混种处理中芦苇对互花米草的竞争显著减小了互花米草的叶宽和叶数(p<0.05),互花米草对芦苇的竞争则显著减小了芦苇 的叶长、叶宽和叶数 (p<0.05)。两种植物的竞争结果受到氮营养的调控,低、高氮水平下互花米草的种间竞争能力大于芦苇,中氮水平下则是芦苇的种间竞争能力大于互花米草。高氮水平下互花米草通过叶面积的快速增加抑制了芦苇的叶生长,使其叶面积减少,从而在竞争中占据优势,这可能是互花米草入侵我国海滩芦苇种群的机制之一。     

培养基质、储藏方式和盐度对三种海滨植物种子萌发的影响

研究了培养基质、储藏方式和盐度对3种海滨植物互花米草(Spartina alterniflora)、盐地碱蓬(Suaeda salsa)和芦苇(Phragmites australis)种子萌发的影响,探索在潮间带环境下海滨植物种子萌发适应策略。结果表明:3种植物的干藏种子和湿藏芦苇种子随着盐度的升高,萌发率和萌发速率均显著下降,湿藏互花米草和盐地碱蓬种子在各盐度下萌发率和萌发速率差异不显著。各盐度-土培-干藏互花米草,中、高盐度-土培-干藏盐地碱蓬,土培各处理,中、高盐度-水培-干藏,高盐度-水培-湿藏芦苇种子萌发失败。湿藏提高了各盐度处理下土培互花米草,中、高盐度-水培和土培盐地碱蓬,淡水、中盐度-水培芦苇种子的萌发率和萌发速率。干藏互花米草种子在中、高盐度和土埋条件下种子的萌发受到抑制,限制了互花米草向高潮带与潮上带的扩展;而经常受潮水浸淹保持湿润的种子能抵抗高盐和泥沙沉积,导致互花米草种群逐步向低潮带方向发展;湿藏芦苇种子在淡水中萌发率和萌发速率最高,当潮上带盐度降低时,芦苇具有很强的竞争优势,但是对盐度和土埋敏感,限制了其向海的拓展;盐地碱蓬在中、高盐度和土培条件下萌发速率最高,快速萌发的适应策略和广适应性在盐地碱蓬占据高潮带和中潮带广大区域的过程中起到了重要的作用。     

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。     

三种盐胁迫对互花米草和芦苇光合作用的影响

互花米草(Spartina alterniflora)的入侵给海岸带盐沼生态系统的结构和功能带来了显著影响。互花米草盐沼中的硫含量高于附近的土著芦苇(Phragmites australis)盐沼。为探讨硫元素对互花米草和芦苇竞争过程的可能影响及其作用机制, 以50 mmol·L^-1的Na₂SO₄和Na₂S对互花米草和芦苇进行处理, 分析处理前后5天内两种植物光合气体交换和叶绿素荧光指标变化的差异, 实验另设等Na⁺浓度的NaCl处理作为比较。研究发现: Na₂S对互花米草和芦苇光合作用影响的差异最大, NaCl次之, Na₂SO₄最小。Na₂S处理后, 互花米草净光合速率(P_n)出现显著上升, 芦苇P_n值大幅度下降。互花米草的光饱和点(I_sat)上升而芦苇的I_sat值无变化。表明Na₂S处理对互花米草的光合能力有促进作用, 但对芦苇的光合能力有抑制作用。NaCl处理后互花米草P_n值也出现小幅上升, 而芦苇P_n值略有下降。Na₂SO₄处理对互花米草和芦苇的P_n值均无显著影响。除Na₂SO₄处理的互花米草外, 不同盐处理后的互花米草和芦苇非光化学淬灭(NPQ)均出现上升趋势。研究结果表明互花米草对环境硫胁迫的适应能力显著高于芦苇, 暗示盐沼高硫环境尤其是硫化物有助于互花米草相对于芦苇的竞争, 也很可能是其形成单一植被的重要原因之一。     

外来种互花米草对盐沼土壤微生物多样性的影响——以江苏滨海为例

研究了江苏滨海外来种互花米草的生长对潮间带土壤微生物特征的影响,结果显示:与原有光滩相比,互花米草的大面积生长,使当地潮间带土壤微生物量增加,并随植被的生长状况发生变化,潮间带土壤微生物对碳和营养物质的利用相对较少;同时微生物生理功能群中占优势的活动组分发生了变化,组成可能更复杂。土壤微生物群落生理功能多样性(CLPP)分析结果显示,潮间带土壤微生物群落对碳源底物的利用能力不高,所利用碳源以糖类、氨基酸类、羧酸类占优势;其中互花米草盐沼微生物利用的碳源种类多于光滩,并且不同季节土壤微生物群落碳源利用类型存在差异;潮间带土壤微生物在不同的季节中其生理功能群组成发生着变化,互花米草盐沼的土壤微生物在植被生长减弱时具有与光滩相近的代谢类群,在生理功能上具有一定的相似性;当植被生长旺盛时,其代谢类群增多,代谢强度升高,微生物群落功能多样性增加。外来种互花米草在滨海潮间带的大面积生长,改善了土壤理化性质,为该处土壤微生物提供了不同的碳源,增强了土壤微生物的活动,改变了土壤微生物群落生理功能结构。     

盐城滨海滩涂湿地典型植物群落土壤微生物组成与结构特征

土壤微生物是生态系统维持正常结构与功能的重要组成部分,为探究盐城滩涂典型湿地土壤微生物群落结构特征,以江苏盐城滩涂互花米草、藨草、盐地碱蓬、芦苇及淤泥质光滩5种典型群落为对象,采用16S rRNA高通量测序技术分析0—10 cm(表层)、10—30 cm(中层)、30—60 cm(深层)土壤微生物多样性及群落结构。结果表明：(1)几种植物群落间,土壤微生物群落结构差异较大,主要体现在细菌群落结构的差异性,古菌群落结构差异相对较小。光滩与植物群落间,在土壤细菌种类及相对丰度上差异相对较大,互花米草群落与本土植物群落间,在微生物群落的细菌种类组成上存在较大差异;藨草群落土壤表层微生物群落结构与互花米草群落相似,深层与盐地碱蓬、芦苇群落相似。(2)同一群落不同层次土壤微生物群落结构相似,差异小于不同群落间土壤微生物群落的结构差异性;不同群落对应层次间,表深层土壤中五种群落土壤微生物多样性存在显著差异,中层土壤中五种群落微生物多样性差异不显著。总体上,植物群落类型对土壤微生物群落结构的影响大于土壤深度;与本土植物群落相比,互花米草群落土壤主要优势门微生物种类差异较小,但部分优势门微生物相对丰度...     

Effects of growing conditions on the growth of and interactions between salt marsh plants: implications for invasibility of habitats

A common but often less tested explanation for the successful invasion of alien species is that invasive alien species outcompete their co-occurring natives, which may not always be the case. In this study, we established artificial environmental gradients in a series of pot experiments with controlled environments to investigate the effects of salinity, sediment type and waterlogging on the performance of and interactions between Phragmites australis (native) and Spartina alterniflora (alien), which generally co-exist in the saline intertidal zones of Chinese and American coasts. Significant effects of salinity and waterlogging were detected on biomass production and morphological characteristics of S. alterniflora and P. australis, and the competitive interactions between the two species were found to vary with all three environmental factors in our experiments. Relative Neighbor Effect (RNE) analyses indicate that competitive dominance of S. alterniflora occurred under the conditions of high salinity, sandy sediment and full immersion, whereas P. australis showed competitive dominance under the conditions of low salinity and non-immersion. Our results suggest that S. alterniflora might outcompete P. australis under conditions present in early salt marsh succession, which support the viewpoint that the outcomes of competition between co-occurring native and invasive alien plants depend on the growing conditions. The implication of this study is that in response to the environmental changes expected from seawater intrusion and sea-level rise, the range of S. alterniflora is expected to expand further in the Yangtze River estuary in the future.     

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.     

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.     

Effects of hydrological regimes on competitive interactions of Schoenoplectus fluviatilis and two co-occurring wetland plants

We investigated the effects of different hydrological regimes (wet [flooded at a constant water depth for duration of the study], cycle [reflooded at eight weeks following natural drying], and wet–dry [initially flooded and allowed to naturally dry for duration of the study]) on the competitive ability of Schoenoplectus fluviatilis (Torr.) M. T. Strong with an annual, native wetland plant (Polygonum pensylvanicum L.) and a perennial, wetland plant (Schoenoplectus tabernaemontani [C. C. Gmel.] Palla). To assess competitive response of the plants, we used a greenhouse target-neighbor study with neighbor plants planted at varying densities (0 [control], 1, 10, and 15 plants pot⁻¹). Our results suggest that S. fluviatilis is competitively superior to S. tabernaemontani and P. pensylvanicum. S. tabernaemontani and P. pensylvanicum biomass declined by 90% and 75% in presence of S. fluviatilis, respectively. However, the competitive ability of S. fluviatilis was generally not enhanced by flooding regime. The competitive coefficients of S. fluviatilis were similar among the three hydrological regimes under intraspecific competition and interspecific competition with S. tabernaemontani, but for interspecific competition with P. pensylvanicum, the competitive coefficient for S. fluviatilis was higher for the cycle treatment compared to the wet–dry and dry treatments. Interestingly, S. tabernaemontani was a strong competitor against S. fluviatilis in the wet and cycle treatments, indicating that maintaining longer hydroperiods could be used as a management tool to encourage growth of S. tabernaemontani and reduce encroachment of S. fluviatilis.     

Rhizosphere microflora of plants used for the phytoremediation of bitumen-contaminated soil

The microbial communities and their degradative potential in rhizospheres of alfalfa (Medicago sativa) and reed (Phragmites australis) and in unplanted soil in response to bitumen contamination of soil were studied in pot experiments. According to the results of fluorescence microscopy, over a period of 27 months, bitumen contamination of soil reduced the total number of microorganisms more significantly (by 75%) in unplanted than in rhizosphere soil (by 42% and 7% for reed and alfalfa, respectively) and had various effects on some important physiological groups of microorganisms such as actinomycetes as well as nitrogen-fixing, nitrifying, denitrifying, ammonifying, phosphate-solubilizing, sulphur-oxidizing, cellulolytic and hydrocarbon-degrading microorganisms. The changes in the physiological structure of the microbial community under bitumen contamination were found to hinge on not merely the presence of plants but also their type. It was noted that the rhizosphere microflora of alfalfa was less inhibited by hydrocarbon pollution and had a higher degradative potential than the rhizosphere microflora of reed.     

闽江河口湿地植物枯落物立枯和倒伏分解主要元素动态

采用分解袋法,对闽江河口湿地2种挺水植物——芦苇(Phragmites australis)和互花米草(Spartina alterniflora)花和叶枯落物的立枯和倒伏分解过程及C、N、P元素动态进行研究。结果表明:(1)立枯分解是2种湿地盐沼植物重要的分解阶段,干物质损失率在13.26%—31.89%之间。多项式模型能较好描述2种植物花和叶的枯落物分解残留率动态。(2)立枯分解阶段,芦苇花和叶的C含量主要为波动下降,互花米草较为稳定;倒伏阶段后期,2种植物都以升高为主。立枯分解阶段2种植物枯落物N含量略有下降,而倒伏阶段逐渐上升。分解过程中枯落物P含量的波动较大。(3)2种植物花和叶C、N的NAI值在分解过程中<100%。芦苇的花和叶中P的NAI值在立枯和倒伏分解阶段都经历了明显下降和升高的过程,而互花米草在立枯阶段变化不大,倒伏阶段下降较为明显。(4)与芦苇相比,互花米草的花和叶枯落物C库较高,N库较低,P库差异不大。     

基于改进的双作物系数法估算辽河三角洲芦苇湿地蒸散量

以辽河三角洲湿地芦苇群落为研究对象,利用涡动相关通量、小气候梯度要素、群落内水面蒸发量以及芦苇群落生长参数等数据,基于FAO-56模型的双作物系数法,分别计算作物系数K_c、基础作物系数K_cb和水面蒸发系数K_w,分析其日变化动态及主导影响因子,建立基于生物因子和环境因子的小时尺度双作物系数模型。结果如下:(1)芦苇生长初期,K_c和K_cb的日变化呈现早晚高、中午略低的多峰波动曲线;在快速生长期和稳定生长期,K_c和K_cb白天波动幅度较小,早晚波动幅度较大;生长末期,K_c和K_cb夜晚波动幅度较大,白天呈现多峰波动曲线;K_w白天较小、夜晚较高,生长初期白天的数值显著高于其他时期。(2)相关分析表明,气温、相对湿度、风速、株高和叶面积指数是K_c、K_cb和K_w的影响因子;基于生物因子和环境因子重新构建双作物系数模型,基...