Allelopathy in the Non-Native Macrophyte, Myriophyllum Spicatum and its Influence on Trophic Dynamics in Aquatic Systems

Sullivan, Daniel J

14 August 2015

Non-native macrophytes structurally impact aquatic assemblages, yet little is known regarding how they influence energy pathways in freshwater ecosystems. Allelopathy in Eurasian watermilfoil- Myriophyllum spicatum has been shown to target basal epiphytic organisms resulting in differences in assemblage structure of colonizing epiphyton between M. spicatum and native M. sibiricum. I conducted a growth chamber experiment to investigate the hypothesis that differences in assemblage structure of colonizing epiphyton between these two macrophytes influence trophic dynamics within aquatic systems. My data suggest M. spicatum produces higher concentrations of allelochemicals, resulting in a more diverse epiphytic assemblage compared to M. sibiricum. This could result in potential transformation of trophic dynamics by decoupling carbon as it flows from primary producer to primary consumer. This work identifies a contributing mechanism responsible for M. spicatum invasiveness and provides new insight in its ecology and management of this non-native macrophyte.

aquatic plants

myriophyllum

epiphyton

invasive species

trophic dynamics

aquatic ecology

Ověření použitelnosti modelu CE-QUAL-W2 pro simulaci růstu fytoplanktonu, epifytonu a makrofyt v nádrži Lipno / Verification of Applicability of the CE-QUAL-W2 Model for Simulation of Phytoplankton, Epiphyton and Macrophyte Growth in Lipno Reservoir

ŠÁMALOVÁ, Klára

January 2008

Verification of applicability of the CE-QUAL-W2 model for simulation of phytoplankton, epiphyton and macrophyte growth in Lipno Reservoir was tested. The model was first calibrated for the year 2004, then was applicated to the whole investigated period from 1.1. 2000 to 31.12. 2005. Sensitivity analysis was executed for mean growth parameters of phytoplankton, periphyton and macrophytes.

Substrátová specificita epifytických společenstev rozsivek (Bacillariophyceae) a krásivek (Desmidiales) / Substrate specifity of epiphytic communities of diatoms (Bacillariophyceae) and desmids (Desmidiales)

Mutinová, Petra

January 2015

Substrate specificity of epiphytic communities of diatoms (Bacillariophyceae) and desmids (Desmidiales) Bc. Petra Mutinová Master's thesis, Prague, 2015 Abstract It has been always assumed, and frequently reported, that host plants, as biologically active substrates, should have a direct influence on associated epiphyton. However, some studies favoured the neutral substrate hypothesis. Thus the relationship between host plant and epiphytic community remained unresolved. This Master's thesis focused on the basal question that numerous previous studies overlooked. Is there any significant influence of host plant on freshwater algal epiphyton in comparison to the influence of other factors, e.g. site and environmental conditions? In addition, substrate specificity of individual algal taxa was investigated. The research concerned several types of natural plant substrates at several water bodies in the Czech Republic, which provided a more accurate and general insight in the ecology of microphytobenthos. The results have demonstrated that site was the main factor affecting epiphytic community structure, followed by mild, but still noticeable, effect of environmental conditions (pH and conductivity). In contrary, host plant had almost no influence and very few algal species were found to be host specific....

Attached Bacterial Communities in Lakes – Habitat-Specific Differences

Haglund, Ann-Louise

January 2004

For many years, the importance of microorganisms attached to surfaces in littoral zones and wetlands has been disregarded when describing aquatic ecosystem dynamics. Supporting evidence is scarce but convincing that these microbial communities are not only very productive but can often serve as major regulators of nutrient and carbon dynamics in many freshwaters. In order to determine the quantitative importance of epiphytic bacteria for the overall carbon turnover, I compared the relative contribution of epiphytic bacteria on the submerged macrophyte Ranunculus circinatus, sediment and free-living bacteria to the total bacterial production. Sediment bacteria generally dominated total bacterial biomass in the littoral zone. Although the epiphytic biomass on R. circinatus was ten times lower than the biomass of sediment bacteria, it often contributed at least equally to the total bacterial production. Thus, the results presented in this thesis confirm that most bacterial biomass and production in shallow lakes is associated with surfaces, and that in littoral zones with dense macrophyte stands, epiphytic bacteria can contribute significantly to the overall carbon turnover. There is increasing evidence that not all cells in natural bacterial communities are metabolically active. In Lake Erken, there were large differences in the fraction of active bacteria between different habitats, while the within-habitat differences were small. The sediments had the largest bacterial fraction, followed by epiphytic bacteria, while in the water column only a few percent of the bacteria were active. In this thesis the fraction of active bacteria is connected to environmental fluctuations. I hypothesize that smaller fluctuations in chemical, biological or physical factors result in large active bacterial fractions. Thus, small environmental fluctuations within a habitat allow large active bacterial fractions, while the active fraction is constrained when the environmental fluctuations are large.

Ecology

bacteria

freshwater

sediment

epiphyton

bacterioplankton

metabolically active

Ekologi

Terrestisk, limnisk och marin ekologi

COMUNIDADE DE ALGAS EPIFÍTICAS (COM ÊNFASE EM DIATOMÁCEAS) EM 23 VEREDAS DO ESTADO DE GOIÁS SOB DIFERENTES IMPACTOS AMBIENTAIS / Epiphytic algae community (with emphasis on diatoms) of Palm swamps of Goias State

OLIVEIRA, Bárbara Dunck

16 May 2010

Made available in DSpace on 2014-07-29T16:21:22Z (GMT). No. of bitstreams: 1 Dissertacao Barbara Dunk Oliveira.pdf: 635497 bytes, checksum: fede265fbba7bc7dcb613bd5c12e1126 (MD5) Previous issue date: 2010-05-16 / (Epiphytic algae community of (with emphasis on diatoms) of Palm swamps of Goias State). The present study is the first to evaluating epiphytic algae community structure of in the subsystem Palm swamps in the Cerrado. The general hypotheses of this study were: impacted Palm swamps are under greater influence of allochthonous material, causing changes in limnological characteristics, as the record of increased nutrient levels and turbidity; the structure of ephiphytic algae community is influenced by environmental characteristics, and impacted Palm swamps have diatom as dominant group of epiphyton due to the adaptive cytomorphological characteristics. The overall objective was to analyze the spatial variation of limnological (physical, chemical and biological) and climatological characteristics of 23 Palm swamps in the Goias State under different environmental impacts and to evaluate epiphytic algae community structure of in relation to environmental characteristics of Palm swamps. This dissertation was structured in a general introduction and two chapters in the form of articles: (Article 1) Spatial variation of limnological and climatic characteristics of Palm swamps under different environmental impacts in the Goias State; (Article 2) Relationship between the structure epiphytic algal community (with emphasis on diatoms) and Palm swamps under different environmental impacts in the Goias State. Sampling was conducted in August and September 2008, in the cities of Caldas Novas, Catalan, Cidade de Goiás, Goiânia, Ipameri, Morrinhos and Piracanjuba. Environmental data of Palm swamps were analyzed: morphometric, climatological and limnological characteristics (pH, water temperature, conductivity and turbidity), nutrients (total nitrogen, total phosphorus and silica), chlorophyll-a and the attributes of epiphytic algae community structure (composition, richness, density, biovolume, diversity and evenness). The abiotic data were collected simultaneously to the biotic data. Epiphytic material was obtained from grasses (Poaceae). Environments showed great variation in the values of electric conductivity, turbidity, total nitrogen and epiphytic biomass, low pH and total phosphorus, and high concentrations of silica. Palm swamps groups under different environmental impacts were discriminated mainly by pH and turbidity. Among the environments preserved only 50% showed oligotrophic characteristics for total nitrogen content, a situation caused by contamination by agricultural activities and urban impacts. It was noted that the acidic water was related to the dystrophic soils of these environments, which showed the pH as an important variable in structuring communities. Greater richness, diversity, density and biovolume of epiphytic algae were recorded in Palm swamps impacted. Zignemafíceas were the most representative in species richness followed by diatoms. Palm swamps impacted had greater density and biovolume of epifiton. Eunotia bilunaris (Ehrenberg) Mills was predominant in the Palm swamps with the highest density of epiphytic algae. Tapinothrix bornetii Sauvageau had higher biovolume in the community. Two taxa (Gomphonema sp.2 and Oedogonium sp.4) were indicator species to impacted by agriculture Palm swamps. This study reported great features for development of several taxa of Bacillariophyceae, manly to Eunotia Ehrenberg. The epiphytic community of Palm swamps showed less expressive than Veredas impacted, probably related to characteristics such as low light, given the preservation of vegetation cover of arboreal and low concentrations of nutrients. / (Comunidade de algas epifíticas (com ênfase em diatomáceas) de Veredas do estado de Goiás). O presente estudo constitui o primeiro trabalho que avalia a estrutura de comunidade de algas epifíticas no subsistema Veredas do Bioma Cerrado. As hipóteses gerais deste estudo foram: Veredas impactadas estão sob maior influência de materiais alóctones, acarretando alterações nas caracteristicas limnológicas, como o registro de maiores valores de nutrientes e turbidez; a estrutura da comunidade de algas epifíticas é influenciada pelas características ambientais, sendo que Veredas impactadas apresentam as diatomáceas como grupo dominante do epifíton devido às características adaptativas cito-morfológicas. Os objetivos gerais foram analisar a variação espacial de características limnológicas (físicas, químicas e biológicas), e climatológicas de 23 Veredas localizadas no estado de Goiás sob diferentes impactos ambientais; e avaliar a estrutura de comunidades de algas epifíticas em relação as características ambientais das Veredas. Esta dissertação foi estruturada em introdução geral e dois capítulos em forma de artigos: (Artigo 1) Variação espacial de características limnológicas e climatológicas de Veredas sob diferentes impactos ambientais no estado de Goiás; (Artigo 2) Relação entre a estrutura de comunidade de algas epifíticas (com ênfase em diatomáceas) e Veredas sob diferentes impactos ambientais no Estado de Goiás. A amostragem foi realizada em agosto e setembro de 2008, nas proximidades dos municípios de Caldas Novas, Catalão, Cidade de Goiás, Goiânia, Ipameri, Morrinhos e Piracanjuba. Os dados ambientais analisados foram: características morfométricas, dados climatológicos, variáveis limnológicas (pH, temperatura da água, condutividade elétrica e turbidez), nutrientes (nitrogênio total, fósforo total e sílica), clorofila-a e os principais atributos da estrutura de comunidade de algas epifíticas (composição, riqueza, densidade, biovolume, diversidade e equitabilidade). Os dados abióticos foram coletados simultaneamente aos dados bióticos. O material epifítico foi obtido de gramíneas (Poaceae). Os ambientes apresentaram grande variação nos valores de condutividade elétrica da água, turbidez, nitrogênio total e biomassa epifítica, baixos valores de pH e fósforo total, e altas concentrações de sílica. Os grupos de Veredas sob diferentes tipos de impacto ambiental foram discriminadas principalmente pelas variáveis pH e turbidez. Entre os ambientes conservados, apenas 50% apresentaram características oligotróficas para concentração de nitrogênio total, situação provocada pela possível contaminação por atividades de agropecuária ou impactos urbanos. Notou-se que as águas ácidas foram relacionadas com os solos distróficos desses ambientes, o que evidenciou o pH como variável importante na estruturação das comunidades. Maior riqueza, diversidade, densidade e biovolume de algas epifíticas foram registrados em Veredas impactadas. Zignemafíceas foram as mais representativas em riqueza específica seguida por diatomáceas. Eunotia bilunaris (Ehrenberg) Mills foi predominante ao ambiente com a maior densidade algal. Tapinothrix bornetii Sauvageau apresentou o maior biovolume das comunidades. Dois táxons (Gomphonema sp.2 e Oedogonium sp.4) apresentaram-se como espécies indicadoras à Veredas impactadas por agropecuária. Este estudo registrou características ótimas para o desenvolvimento de vários táxons de Bacillariophyceae, principalmente para o gênero Eunotia Ehrenberg. As Veredas conservadas apresentaram comunidade epifítica menos expressiva que as impactadas, fato provavelmente associado a baixa iluminação das Veredas conservadas, dada à preservação da cobertura vegetal de porte arbóreo e baixas concentrações de nutrientes.

Epifíton

Diatomáceas

Estrutura de comunidade

Impactos ambientais

Limnologia

Epiphyton

Diatoms

Community structure

Environmental impacts

Limnology

CNPQ::CIENCIAS BIOLOGICAS::ECOLOGIA

Fitoperifiton de un lago somero y su relación con los estados de biequilibrio

Cano, María Gabriela

03 July 2013

The role of communities associated to a substrate as fundamental components of an aquatic system has been recognized by many authors. Although periphyton has been considered of great importance in shallow lakes, its inclusion in different ecological models has been unusual. Phillips et al. (1978) were the first in considering epiphyton as an internal mechanism leading the system to a change in its state from greater water transparecy to more turbid conditions. In contrast, Scheffer et al. (1993) proposed the Alternative Equilibria Hypothesis (AEH), which considers that a shallow lake can alternate between two states, a Clear Water State (stabilized by the presence of submerged macrophytes) and a Turbid Water State (stabilized by an elevated phytoplankton biomass), excluding in this scheme the periphytic communities. Later only the conceptual model coined by Goldsborough and Robinson (1996, G&R model) emphasizes again the importance of epiphyton as well as that of epipelon and metaphyton by establishing the possibility of occurrence of four states according to the contributions to the total algal biomass of each of the algal taxocenosis. Some analyses of the system’s dynamics have been performed in pampean lakes in the context of the AEH. On the other hand, knowledge regarding periphytic and benthic communities is still poor. We propose as an hypothesis that phytoperiphyton will respond to the occurrence of different equilibria states, displaying, at the same time, strong interrelationships with the phytobenthos as well as with the phytoplankton. On the other hand, we consider the possibility that the phytoperiphytic and phytobenthic assemblages may function as internal mechanisms both, as state change or as state stability factors. Finally, we assess the importance of phytoperiphyton as regards its contributions to the total algal biomass in the context of the G&R model, comparing then the results with those obtained in the case of the AEH. The general objectives of the present investigation are to gather information about the structure and dynamics of the phytoperiphyton and its relationships with environmental factors as well as with the phytobenthon and phytoplankton in a pampean shallow lake; and to analyze phytoperiphytic dynamics under the AEH and the G&R model contexts, evaluating periphytic contributions to the total algal biomass. This investigation was carried out in an seepage shallow lake, Lacombe Lake, which is included in the “Grupo Marginal de lagunas” group in the pericoastal region of Provincia de Buenos Aires. Sampling was performed from July 2001 to June 2002 at four sites according to their exposure to environmental factors and the presence of macrophytes: bulrush beds, (JP and JC); and sites devoided of emergent vegetation but with stands of submerged macrophytes during the growing season (ALe and ALr). J sites and ALe were also representative of deeper zones and ALr of a site near the shore. Environmental variables were measured in situ and water samples were collected for chemical analysis and for plankton identification and quantification, following a vertical profile (excepting in ALr). In the case of phytoperiphyton, bulrush epiphyte samples (epiphyton) were taken following a vertical profile and those of submerged macrophytes were collected from the first 25 cm of the stems. Benthon (epipelon) was sampled using a corer. Aliquots for chemical analysis were also extracted from those samples. Vegetal substrate dynamics was also evaluated during sampling. At the laboratory, concentrations of algal nutrients, of the eight principal ions and of soluble polyphenols, as well as alkalinity and total hardness were measured. Phytoplanktonic, epiphytic and epipelic samples were treated for active a chlorophyll and pheopigment determinations. Organism identification and quantification were made according to standardized and own developed methods. First, variations in biotic and abiotic variables were analyzed for the determination of different equilibrium states occurrence. Three perturbation events were registered: precipitations in August, October and March. All of them involved water level increases and conductivity diminutions. Especially in the first two events, nutrient input from runoff was observed; meanwhile in March the input of water determined the dilution in nutrients concentrations. On the other hand, light conditions improved, particularly from October onwards, when stands of submerged macrophytes developed and a decrease of phytoplankton density and a change in its specific composition was detected. The latter being generated by the dilution effects of water input, the shading of the aquatic plants and algal consumption by cladocerans. March event also involved an improvement of light underwater climate but the increase in the water level affected macrophyte stands which mainly withdrawed to the shallowest zones. As regards phytoplankton, changes in the specific composition were recorded again. The statistic evaluation of these facts in conjunction with the analysis of permanence, resiliency and resistance properties of the dominating taxocenosis leads to interpret in the context of the AEH that two equilibria states occurred in the shallow lake. During the first three months a Turbid Water State developed, given by the phytoplankton domination given by an oscilatorial cyanophyte, minor transparency and relatively higher nutrient concentrations. In October and November the passage between states occurred, thus considering these months as transitional. From December onwards a Clear Water State established given by extended development of stands of submerged macrophytes, greater water transparency and minor nutrient concentrations. Finally, from March to May, given the submerged macrophyte withdrawal to shallowest sectors it can be interpreted that the system oscillated around a clear water state, or else, taking into account changes in the planktonic community, it is suggested that a third different state established, the “mixed phytoplankton” state. It is also suggested that states developed in Lacombe could be alternative. Next, the structure and dynamics of phytoperiphyton on bulrush and submerged macrophytes was analyzed. Vertical spatial and temporal variations of bulrush epiphyton showed to be more important than differences between sites. These variations involved smaller biomass values and a simpler physiognomy during turbid water phase and along the vertical gradient in all sampling occasions. In October, related to better light underwater conditions and the nutrient input, epiphytic biomass increased, principally promoted by species typical of the turbid phase. Nonetheless, a structural change started in this month, driven by herbivores but also by the modification of internal relationships between members of the same taxocenosis (shading and less bare substrate to be colonized). This resulted in the establishment of the characteristic assemblages of the clear water phase. During the first three months domination by stalked diatoms structured the community in a unique stratum, resistant to the less favourable light conditions and resilient to August perturbations. From December onwards Spirogyra species dominated, constituting the upper stratum, followed by Oedogonium species in the middle stratum and diatoms in the lower one. These assemblages were stabilized by mechanisms mainly displayed by the zignematalean taxon (shading, epifitism inhibition), allowing to considerer that they were resilient to March perturbation event (de novo establishment on non previously colonized surfaces). In face of the permanence, resistance and resilience properties showed by the taxocenosis, two different states of bulrush phytoperiphyton are considered: turbid water and clear water assemblages. This temporal pattern appeared less well delimited with depth and showed up later in time. Epiphyton data suggested that both states could be alternative. Differences between sites could be observed in respect to phytoperiphyton growing on submerged macrophytes, but the same temporal pattern showed by bulrush periphyton couldn’t be detected due to a great variability in the data gathered. In the next section, the analysis of the structure and dynamics of the phytobenton was carried out. It was showed that differences between the deepest sampling points and the shallowest site were greater than temporal ones. The composition of the assemblages was scarcely variable in time. The taxocenosis was principally related to the poor light conditions recorded on the sediment surface throughout the entire sampling period, even during the clear water phase. The examination of the specific composition in function of its origin evidenced the influence that the epipelon receives from other taxocenosis, constituting a refuge site for allochthonous taxa during unfavourable situations. The scarce variability of the epipelic fraction is also showed. In this way, it is considered that the taxocenosis maintained itself in only one state, indifferent to state changes in the lake and principally resisting the darkness and bearing to live in the unstable sediments. Subsequently, first the roles of the phytoperiphyton and complementary those of phytobenton, as state change or state stability agents were evaluated. The harmful effect of the phytoperiphyton on submerged macrophytes was probably counteracted by plant ramification production and allelopathy. The evidence suggested that its role as nutrient sequestrator is of minor importance in this case, due to other factors that might have disturbed phytoplankton more intensely than competition with phytoperiphyton. Much evidence supported the role of phytobenton as a source of epiphytic and planktonic species belonging either to turbid and clear water state assemblages. The results did not support the hypothesis that phytobenton may play a role as a sediment-stabilizing factor. On the contrary, it may be perturbating agent. Next, an analysis of the contributions of each community to the total algal biomass in the context of the G&R model was performed. Comparisons with AEH results were also carried out. This leaded to the consideration of the occurrence of the following states in Lacombe Lake: a Lake State consistent with the Turbid Water phase, an Open State consistent with the Clear Water phase and local Dry States in ALr site occurred both during the turbid water phase (July) or the clear water situation (March-April). The substantial contribution of epiphyton especially, that growing on submerged macrophytes, is emphasized. The importance of the discrimination of different fractions of epipelon material according to its origin when evaluating the contributions of each community to total algal biomass is also highlighted. Finally, a new interpretation is presented based on algal taxocenosis dynamics, which incorporates elements from both, the AEH and the G&R model. In conclusion, phytoperiphyton in this pampean shallow lake is strongly affected by the factors that determine the establishment or passage from one equilibrium state to another. These assemblages respond to changes through modifications in their own internal structure. These structures gradually alter with depth, remaining these changes more fully explained by the comparison with phytobenton dynamics. Besides the possible roles that the taxocenosis might undertake as an internal mechanism in the change or stabilization of systems states in different situations other than those encountered during this study, epiphyton importance in the systems context, is principally evidenced by the great contribution that these taxocenosis make to the total algal biomass, constituting the dominant compartment during clear water states. / El rol de las comunidades relacionadas a un sustrato como componentes fundamentales dentro de un sistema acuático ha sido reconocido por varios autores. A pesar de la importancia dada al perifiton en lagos someros, su inclusión dentro de diferentes modelos ecológicos ha sido inusual. Phillips et al. (1978) son los primeros en considerar al epifiton como un mecanismo interno en el pasaje de un estado de aguas transparentes a otro más turbio. En contraste, Scheffer et al. (1993), proponen la Hipótesis de Estados de Equilibrio Alternativos (HEEA) que considera que un lago somero puede alternar entre dos estados, uno de Aguas Claras, (estabilizado por la presencia de macrófitas sumegidas) y otro de Aguas Turbias (estabilizado por la elevada biomasa de fitoplancton), no tomando en consideración a las comunidades perifiticas. Sólo el marco conceptual propuesto por Goldsborough y Robinson (1996, modelo G&R) da nuevamente relevancia al epifiton, incluyendo al epipelon, al metafiton y al fitoplancton dentro de un modelo ecológico, discriminando cuatro estados de acuerdo a la dominancia en la biomasa algal total de alguna de estas taxocenosis. En las lagunas pampeanas se han realizado algunos análisis de la dinámica de los sistemas en el marco de la HEEA. Por otro lado, el conocimiento acerca de las comunidades perifíticas y bentónicas todavía es escaso. Se propone como hipótesis que el fitoperifiton variará de acuerdo a la ocurrencia de los diferentes estados en la laguna (según HEEA), interrelacionándose al mismo tiempo con el fitobenton y el fitoplancton. Por otro lado, también se considera la posibilidad de que tanto los ensambles fitoperifíticos como fitobentónicos sean mecanismos internos en el pasaje o en la estabilización de un estado. Por último, se valora la importancia del fitoperifiton en cuanto a sus aportes a la biomasa algal total en el marco del modelo G&R, realizando comparaciones con los resultados obtenidos en el caso de la HEEA. Los objetivos generales de esta investigación son: obtener información acerca de la dinámica y estructura del fitoperifiton y su relación con factores ambientales así como, también, acerca de sus interrelaciones con el fitobenton y el fitoplancton en una laguna pampeana; y analizar su dinámica en el marco de la HEEA y del modelo G&R valorando los aportes del fitoperifiton a la biomasa algal total. El estudio se realizó en la laguna Lacombe comprendida en el Grupo Marginal de lagunas en la región pericostera de la Provincia de Buenos Aires. Los muestreos se realizaron desde julio 2001 a junio 2002 en cuatro sitios de acuerdo a su grado de exposición a las variables ambientales y la presencia de macrófitas: Juncales (JP y JC); sitios de Aguas Libres con o sin macrófitas sumergidas durante la época de crecimiento (ALe y ALr). Los sitios J y ALe representan, puntos de mayor profundidad y ALr un sitio cercano a la orilla. Siguiendo un perfil vertical (con excepción del sitio cercano a la orilla, ALr) se midieron variables ambientales in situ y se tomaron muestras de agua para realizar análisis químicos del agua y la identificación y la cuantificación del plancton. En el caso del fitoperifiton se tomaron muestras de epifitos sobre junco (epifiton) también en un perfil vertical y en los 25 cm apicales del tallo de plantas sumergidas. El benton (epipelon) fue muestreado con un corer, extrayendo muestras también para realizar análisis químicos de los sedimentos. En el campo también se evaluaron las dinámicas de los sustratos vegetales. En el laboratorio se midieron las concentraciones de nutrientes algales, de los ocho iones principales, de los polifenoles solubles así como también la reserva alcalina y la dureza total. Las muestras de fitoplancton, epifiton y epipelon fueron tratadas para la estimación de clorofila a activa y feopigmentos, y la identificación y cuantificación de organismos según métodos estandarizados y propios. En principio, se analizaron las variables bióticas y abióticas para determinar la ocurrencia de estados de equilibrio en la laguna. Tres eventos principales de perturbación ocurrieron durante el período de estudio: las precipitaciones en agosto, octubre y marzo. Todas ellas involucraron aumentos del nivel hidrométrico y disminuciones en la conductividad. En los dos primeros, especialmente en octubre, se produjo la entrada de nutrientes por escorrentía, en tanto que en marzo el aporte de agua resultó en la dilución de los mismos. Por otro lado, las condiciones lumínicas mejoraron especialmente a partir de octubre, lo que se relacionó con el desarrollo de manchones de macrófitas sumergidas y una menor densidad y composición diferente del fitoplancton. Esto último se produjo por los efectos de dilución de la entrada de agua, el sombreado de las plantas acuáticas y por el pastoreo de cladóceros. El evento de marzo involucró también un mejoramiento de las condiciones de luz en la columna de agua pero, paralelamente, determinó la retracción de los manchones de macrófitas sumergidas hasta zonas más cercanas a la orilla. En el fitoplancton se operaron cambios en la composición específica. La evaluación estadística de estos hechos junto con el análisis de las características de permanencia, resiliencia y resistencia de las taxocenosis dominantes condujeron a interpretar que durante el período de estudio se establecen dos estados de equilibrio según la HEEA. Durante los tres primeros meses se desarrolló un estado de aguas turbias definido por la dominancia del fitoplancton con el predominio de una oscilatorial, menor transparencia y concentraciones de nutrientes relativamente más elevadas. En octubre y noviembre se produjo el pasaje entre estados, considerándose a estos meses como transicionales. De diciembre hasta el final del estudio, se desarrolló un estado de aguas claras definido por la presencia de manchones de macrófitas, mayor transparencia del agua y menores concentraciones de nutrientes. Finalmente, de marzo hasta mayo, dada la retracción de los manchones de macrófitas sumergidas, se puede interpretar que ocurrió una oscilación del sistema alrededor de un estado de aguas claras o, dados los cambios operados en el plancton, un tercer estado “mixed phytoplankton”. Se evidenció que los estados establecidos podrían ser alternativos. Seguidamente se analizaron la estructura y dinámica del fitoperifiton sobre junco y las macrófitas sumergidas. Las variaciones espaciales verticales y temporales en la dinámica del perifiton sobre junco resultaron más marcadas que las espaciales horizontales (entre sitios). Estas variaciones implicaron una menor biomasa y una fisonomía más simple durante la fase de aguas turbias y a lo largo del perfil vertical en todas las fechas. Relacionado con el incremento de la luz en la columna de agua y por la entrada de nutrientes en octubre, la biomasa epifítica aumentó, impulsada por las especies características de la fase turbia. Sin embargo, a partir de ese mes se dió un cambio estructural, generado por el pastoreo pero, también, por la modificación en las relaciones entre los componentes de la taxocenosis (autosombreado y menor disponibilidad de sustrato libre) que desembocó en el establecimiento de los ensambles característicos de la fase clara. Durante los tres primeros meses el predominio de diatomeas pedunculadas conformó una comunidad uniestrato, resistente a una menor disponibilidad de la luz y resiliente frente a las perturbaciones de agosto. De diciembre a febrero se desarrolló un ensamble donde predominan las especies de Spirogyra formando un estrato superior, las de Oedogonium en un estrato medio y las diatomeas en un estrato inferior. Estos ensambles presentaron mecanismos de estabilización dados por los talos de la zignematal (sombreado, inhibición del crecimiento de epifitos secundarios), considerándose resilientes frente a las perturbaciones de marzo (desarrollo de los ensambles en sitios previamente no colonizados). En función de las características de permanencia, resistencia y resiliencia, se diferenciaron dos estados en el fitoperifiton de junco: ensambles de fase turbia y ensambles de fase clara. Este patrón temporal se hizo menos marcado en profundidad y aparece en forma retrasada en el tiempo. Los datos habrían indicado la posibilidad de que ambos estados fuesen alternativos. El fitoperifiton sobre macrófitas sumergidas presentó variaciones definidas en el sentido espacial horizontal (mayor biomasa en sitios más profundos) pero no se detectó un patrón temporal, similar al del perifiton sobre junco, dada la gran variabilidad de los datos obtenidos. En el apartado siguiente se analizaron la estructura y dinámica del fitobenton. Se estableció que las variaciones entre sitios de muestreo fueron más marcadas que las temporales. Los ensambles epipélicos presentaron en general una composición escasamente variable a lo largo del tiempo relacionándose principalmente con la disponibilidad de luz. Ésta fue escasa durante todo el período de estudio por lo que las condiciones de crecimiento para las algas béntonicas no fueron favorables, aún con los cambios de estado en la laguna. El análisis del material en función de su origen evidenció las influencias que esta comunidad recibe desde otros ensambles, siendo un sitio de refugio para organismos alóctonos durante épocas desfavorables. También se evidenció la escasa variabilidad de la fracción epipélica propiamente dicha durante todo el período de estudio. Así, se considera que esta taxocenosis se mantuvo en un solo estado, ajena al pasaje de estado en la laguna, principalmente resistiendo la falta de luz y la inestabilidad de los sedimentos. Posteriormente, se evaluó primeramente el papel del fitoperifiton y, en forma complementaria, el del fitobenton como impulsores del pasaje de estados o como estabilizadores de los mismos en la laguna. El efecto de sombreado del fitoperifiton sobre macrófitas sumergidas probablemente fue contrarrestado por la producción de nuevas ramificaciones de las macrófitas y por alelopatía. Las evidencias señalaron que su rol como secuestradores de nutrientes disponibles para el fitoplancton fue menor en este caso, dado que éste último se halla perturbado por otros factores más que por la competencia con el epifiton. Las evidencias señalaron al epipelon como simiente de especies del epifiton y del fitoplancton tanto pertenecientes a la fase turbia como a la clara. En cambio, los resultados no avalaron su rol como estabilizador de los sedimentos. Al contrario, podría ser una perturbación de éstos. A continuación, se examinaron las contribuciones de las taxocenosis a la biomasa algal total en el marco del modelo G&R. También se realizó la comparación de los resultados con aquellos obtenidos a partir de la HEEA. Se consideró la ocurrencia de un estado Lake State congruente con la fase turbia en la laguna, un estado Open State congruente con la fase clara y estados locales Dry State en ALr tanto en la fase turbia (julio) como en la clara (marzo-abril). Se destacó la substancial contribución del epifiton sobre macrófitas sumergidas. También, se subrayó la importancia de discriminar, en relación con el epipelon, los aportes de cada una de las taxocenosis cuando se evalúan las contribuciones a la biomasa algal total. Finalmente, se ofreció una interpretación basada sobre la dinámica de las taxocenosis algales considerando elementos de la HEEA y del modelo G&R. En conclusión, el fitoperifiton en las lagunas pampeanas fue fuertemente influido por los factores que determinan los estados de equilibrio, respondiendo al cambio de los mismos con la modificación en su estructura interna. Ésta se alteró gradualmente con la profundidad, quedando estos cambios más completamente explicados a través de la comparación con la dinámica del fitobenton. Además de los posibles roles que podría desempeñar como mecanismo interno de pasaje o como estabilizador de estados en situaciones diferentes a las halladas en Lacombe, su importancia en el contexto del sistema se manifiesta en el gran aporte que realiza a la biomasa algal total, constituyendo el compartimiento dominante en los estados de aguas claras.

epifiton

laguna pampeana

estados de equilibrio

epipelon

perifiton

junco

modelo Goldsborough & Robinson

epiphyton

shallow lake

alternative equilibria

periphyton

Lacombe lake

bulrush

Goldsborough and Robinson model

phytobenthon

benthic algae

turbid water state

clear water state

Ciencias Naturales