Community structure, plant interactions, seedling performance and seed bank composition of salt marshes along an estuarine gradient in Coos Bay, Oregon

Keammerer, Holly Barton, 1983-

03 1900

xviii, 160 p. : ill. (some col.) / Salt marshes are intertidal communities dominated by halophytic vascular plants that are subjected periodically to tidal inundation. These species have developed various adaptations to this stress, including tolerances of fluctuating salinity, extended periods of inundation and intervals of anoxic conditions. The marshes are divided into zones of different plant communities based on species' tolerances of ambient estuarine conditions. Abiotic stresses change along the estuarine salinity gradient (marine to riverine), potentially altering development and composition of plant communities. Abiotic gradients associated with tides are not the only factors that contribute to development of plant community composition in salt marshes. Both negative (competition) and positive (facilitation) biological interactions are also important. Factors that influence community structure in salt marshes, particularly on the eastern North American seaboard, have been well studied. In contrast, salt marshes along the Oregon coast are smaller and more discrete and have received comparatively little attention. The community structure and seed bank composition of six marshes along an estuarine salinity gradient were evaluated. Four major community types dominated marshes that varied in the salinity of inundating tidal waters. Community types were relatively consistent throughout the estuary despite the distances between the marshes. Unlike the emergent plant communities, marsh seed bank composition was more similar within a marsh than within a community type. The low and high marsh community types were separated by a distinct boundary in the marine marshes. Although abiotic factors influence the physical separation of communities, competitive interactions commonly determine the upper limit of a species. In Metcalf marsh, however, the upper boundary for two dominant low marsh species was not determined by competition with the high marsh dominant species. Positive biotic interactions between seedlings and existing vegetation in a community are important factors in determining species distributions, particularly in stressful estuarine environments. In salt marshes, where abiotic stress can be harsh, presence of existing vegetation can ameliorate these conditions and enhance germination and seedling establishment. However, interaction between seedlings and the emergent marsh community was highly competitive, though germination of one species was enhanced in the presence of existing vegetation. This dissertation includes un-published co-authored material. / Committee in charge: Dr. Scott Bridgham, Chairperson; Dr. Richard Emlet, Advisor; Dr. Steven Rumrill, Member; Dr. Alan Shanks, Member; Dr. Gregory Retallack Outside Member

Community structure

Competition

Salt marshes -- Oregon -- Coos Bay (Bay)

Seed banks

Seedlings

Estuaries -- Oregon -- Coos Bay (Bay)

Plant biology

Ecology

ESTRUTURA DE COMUNIDADE DOS PEIXES ASSOCIADOS A PRADOS DE FANERÓGAMAS MARINHAS DA ILHA DO MARANHÃO / Structura of community fish associated associated with Phanerogams Marine Maranhão Island meadows.

Brito, Pâmella Silva de

29 August 2014

Made available in DSpace on 2016-08-17T15:00:40Z (GMT). No. of bitstreams: 1 Dissertacao - PamellaSilvaBrito.pdf: 2572284 bytes, checksum: 775b92e1aa430b94c10075867a76b869 (MD5) Previous issue date: 2014-08-29 / FUNDAÇÃO DE AMPARO À PESQUISA E AO DESENVOLVIMENTO CIENTIFICO E TECNOLÓGICO DO MARANHÃO / The marine phanerogams meadows are important because they are nursery areas for many species of fish. In order to describe the community structure, temporal and spatial patterns of fish using Spartina alterniflora meadows of Maranhão Island present in tide macro region were held six samples of nine points in the period between July 2012 and June 2013, using a trawl net. A total of 11,660 individuals captured, representing 80 species, in which 13 are new record for the state of Maranhao. The sampled points are represented by a few abundant species (Rhinosardinia bahiensis, Atherinella brasiliensis, Lycengraulis grossidens, Lycengraulis batesii, incilis Mugil and Centegraulis edentulus) that demonstrated use the space according to interspecific preferences and presenting distribution patterns with the occurrence of distributed Juveniles throughout the year, suggesting that the studied environments are used by many species such as nursery areas and these have food preferences for zooplankton and mostly characterized as marine fish that frequent the estuary at some period of their life cycle. The species A. brasiliensis was constant in the spatial and temporal distribution, L. batesii was more abundant in the dry and the species L. grossidens, M. incilis, R. bahiensis, C. edentulus were dominant in the rainy season. The abiotic factors did not change much numerically, being only significant for dissolved oxygen between stations and different salinity for locations. We can see the meadows shown to be constant in the temporal variation and differed between sites, which showed no significant differences between the evaluation variables. Thus we can infer that the studied phytal environment is considered a nursery, it is frequented by several species of mostly juvenile fish that use this area as a place of recruitment, food and shelter; the dynamics of patches of seagrass were stable during the dry and rainy seasons and the composition and abundance of fish community is more explained by the spatial dynamics, but still have temporal distribution patterns, these features are typical of tropical environments that are inserted in mosaic adjacent environments. / Os prados de fanerógamas marinhas são importantes por serem áreas de berçário de muitas espécies de peixes. A fim de descrever a estrutura da comunidade, padrões temporais e espaciais de peixes que utilizam prados de Spartina alterniflora da Ilha do Maranhão, presentes em região de macromarés foram realizadas seis amostragens de nove pontos no período entre Julho de 2012 e junho de 2013, utilizando uma rede de arrasto. Um total de 11.660 indivíduos capturados, correspondendo a 80 espécies, na qual 13 são nova ocorrência para o estado do Maranhão. Os pontos amostrados são representados por algumas espécies abundantes (Rhinosardinia bahiensis, Atherinella brasiliensis, Lycengraulis grossidens, Lycengraulis batesii, Mugil incilis e Centegraulis edentulus) que demonstraram utilizar o espaço de acordo com preferências interespecíficas e apresentando padrões de distribuição com a ocorrência dos indivíduos juvenis distribuída durante todo o ano, sugerindo que os ambientes estudados são utilizados por várias espécies como áreas de berçário e estas apresentam preferências alimentar por zooplancton em sua maioria e caracterizadas como peixes marinhos que frequentam o estuário em algum período do seu ciclo de vida. A espécie A. brasiliensis mostrou-se constante na distribuição espacial e temporal, L. batesii foi mais abundante na seca e as espécies L. grossidens, M. incilis, R. bahiensis, C. edentulus foram dominantes no período chuvoso. Os fatores abióticos não variaram muito numericamente, apenas sendo significante para oxigênio dissolvido entre as estações e salinidade diferente para locais. Podemos observar os prados mostraram-se constantes na variação temporal e diferiu entre os locais, os quais não apresentaram variações significativas entre as variáveis de avaliação. Dessa maneira podemos inferir que o ambiente fital estudado é considerado um berçário, pois é frequentado por várias espécies de peixes principalmente juvenis que utilizam essa área como local de recrutamento, alimentação e refúgio; a dinâmica dos prados de fanerógamas se mantiveram estáveis durante os períodos seco e chuvoso e que a composição e abundância da comunidade de peixes é mais explicada pela dinâmica espacial, mas ainda assim possuem padrões de distribuição temporal, essas características são típicas de ambientes tropicais que estão inseridos em mosaico de ambientes adjacentes.

Marismas

Ictiofauna

Marinho-estuarino

Conectividade

Distribuição

salt marshes

fish populations

marine-estuarine

connectivity distribution

Vegetation and functional diversity of sand dune habitats between and within different bioclimatic regions

Mahdavi, Parastoo

26 April 2017

No description available.

570

Coastal vegetation

Functional trait

Salt marshes

Iran

Greece

Germany

Mediterranean

Atlantic

Classification

C4 plants

azonal habitat

Biologie (PPN619462639)

Ecological Responses to Severe Flooding in Coastal Ecosystems: Determining the Vegetation Response to Hurricane Harvey within a Texas Coast Salt Marsh

Hudman, Kenneth Russell

08 1900

Vegetative health was measured both before and after Hurricane Harvey using remotely sensed vegetation indices on the coastal marshland surrounding Galveston Island's West Bay. Data were recorded on a monthly basis following the hurricane from September of 2005 until September of 2019 in order to document the vegetation response to this significant disturbance event. Both initial impact and recovery were found to be dependent on a variety of factors, including elevation zone, spatial proximity to the bay, the season during which recovery took place, as well as the amount of time since the hurricane. Slope was also tested as a potential variable using a LiDAR-derived slope raster, and while unable to significantly explain variations in vegetative health immediately following the hurricane, it was able to explain some degree of variability among spatially close data points. Among environmental factors, elevation zone appeared to be the most key in determining the degree of vegetation impact, suggesting that the different plant assemblages that make up different portions of the marsh react differently to the severe flooding that took place during Harvey.

Galveston Island

NDVI

remote sensing

salt marshes

hurricane impacts

disturbance theory

plant ecology

mixed effects modeling

LiDAR

Landowners' willingness to accept compensation for selling saltwater marshes to a conservation program : a multiple bounded discrete choice approach

De Maio Sukic, Alejandro.

January 2001

No description available.

Salt marshes -- Fundy, Bay of.

Capturing dynamics of inorganic carbon fluxes from diurnal to decadal timescales

Chu, Sophie Ning-Shin

January 2017

Thesis: Ph. D., Joint Program in Oceanography/Applied Ocean Science and Engineering (Massachusetts Institute of Technology, Department of Earth, Atmospheric, and Planetary Sciences; and the Woods Hole Oceanographic Institution), 2017. / Cataloged from PDF version of thesis. / Includes bibliographical references. / The marine carbon cycle plays an important role in regulating Earth's climate. The vastness of the open ocean and the large variability in the coastal ocean provide obstacles to accurately quantify storage and transport of inorganic carbon within marine ecosystems and between marine and other earth systems. Thus far, the open ocean has been the only true net sink of anthropogenic carbon dioxide (Canthro) emissions. However, ocean storage of Canthro is not uniformly distributed. Changes in water chemistry in the Northeast Pacific were quantified to estimate the amount of Canthro stored in this region over the last decade. This additional Canthro was found to cause acidification and aragonite saturation horizon shoaling at rates towards the higher end of those found in Pacific and Atlantic Ocean basins, making the Northeast Pacific one of the most sensitive regions to the invasion of anthropogenic carbon dioxide. Due to large variability in biogeochemical signals in coastal oceans, it is challenging to accurately assess carbon fluxes across different boundaries, such as tidal exchange between coastal wetlands and coastal oceans. Coastal salt marshes have been suggested to be a large net CO₂ sink, thus designated as a type of "blue carbon." However, accurate and dynamic estimates of carbon fluxes to and from tidal marshes are still premature, particularly carbon fluxes from marshes to the coastal ocean via tidal exchange, often referred to as marsh lateral fluxes. In this thesis, lateral total alkalinity (TA) and dissolved inorganic carbon (DIC) export fluxes were realistically quantified using high frequency time-series, in situ data. High-resolution fluxes permitted a closer look at how marsh generated TA and DIC are being exported over diurnal, spring-neap, and seasonal scales. I investigated the best way to capture variability of marsh exports via traditional bottle sampling and assessed uncertainties associated with different sampling strategies. Marsh TA and DIC exports significantly modified buffering capacity of coastal waters. This work contains the first realistic estimate of TA exports from a tidal salt marsh. Accurate estimates of DIC and TA fluxes indicate the significance of salt marshes to the coastal carbon and alkalinity budgets. / by Sophie Ning-Shin Chu. / Ph. D.

Woods Hole Oceanographic Institution.

Carbon

Climatology

Metabolism

Salt marshes

Carbon dioxide

Using palynological modern analogues to locate a buried dikeland soil in a recovering Bay of Fundy salt marsh

Graf, Maria-Theresia

January 2004

The upper Bay of Fundy's Cumberland Basin contains an estimated 16,500 hectares of salt marsh, nearly all of which have been diked and converted to agricultural lands since the arrival of the Acadians in the late 17 th century. John Lusby Marsh is a 600 ha salt marsh that was diked and farmed for approximately 250 years, until dikes breached in the late 1940s and the marsh was restored to tidal conditions. A sediment core that contained the reclamation surface was extracted in John Lusby Marsh, and a trial set of eight fossil pollen spectra was compared to the modern analogues. Discriminant analysis classified the fossil samples into a plausible sequence of historic land uses which included phases when the marsh was diked and farmed. A comparison of the soil characteristics and pollen spectra from this study to those in a previously published study of a nearby salt marsh at Amherst N.S. suggest that flooding of a dikeland was misinterpreted as a sudden increase in the rate of sea level rise. Historical air photos support this conclusion by showing that the sampling location was indeed diked and farmed before the 1940s.

Historical inventory of sedimentary carbon and metals in a Bay of Fundy salt marsh

Clegg, Yolanda.

January 1999

In 1996, four cores (∼30 cm depth) were extracted from the high marsh zone of Dipper Harbour salt marsh in the Bay of Fundy. Soil bulk densities are shown to be controlled by mineral density and are higher than those reported for salt marshes in the northeastern United States. Examination of variations in mineral content suggests that regular tidal action and ice rafting deposits the majority of the mineral sediment to the high marsh zone. Dating techniques (based upon pollen, 137Cs, 210Pb and total Pb) were applied to selected cores, suggesting accretion rates from 0.25 to 0.31 cm yr-1 which are higher than the rates of local relative sea level rise. Correlation of trace metal densities (Cu, Fe, Pb and Zn) to Al densities were used to justify Al normalization. After consideration of natural sources and adsorption factors, the normalized Pb profiles are shown to reflect historical pollution levels of leaded gasoline consumption. Carbon storage values in the upper 25 cm of sediment range from 7.3--10.5 kg C m-2 and carbon accumulation rates vary from 95 to 124 g C m-2 yr-1, representing 15--29% of the salt marsh macrophyte productivity.

Salt marshes -- Fundy, Bay of.

Carbon sequestration -- Fundy, Bay of.

Estuarine sediments -- Fundy, Bay of.

Traces d’ADN bactérien et composés volatils comme premiers éléments de traçabilité des sels de terroir de l’océan Atlantique / Traces of bacterial DNA and volatile compounds as first factors of traceability pertaining to salt from regional marshes in the Atlantic Ocean.

Donadio, Clara

18 September 2014

Exploité depuis toujours, le sel a connu, au temps de la Gabelle notamment, des heures de gloire certaines, faisant de lui un métal blanc précieux, recherché et coûteux. Cependant, de nos jours, il est considéré comme un minéral essentiel, certes, mais aussi dangereux pour la santé si surconsommé. Ainsi, les paludiers d'aujourd’hui doivent mettre en avant le caractère authentique de leur produit et leur savoir-faire ancestral, symboles de qualité dans l'esprit des contemporains, pour réussir à maintenir leur activité et leur part de marché. L'objectif de cette étude était ainsi de définir des pistes qui garantiraient aux paludiers la protection de leur travail, par exemple dans le cadre d'une démarche d'appellation d'origine contrôlée ou protégée. Pour ce faire, un partenariat avec des sauniers de la Côte Atlantique Française (Ile de Ré, Ile de Noirmoutier, presqu'Ile de Guérande, salines de Saint-Armel) a permis de collecter divers échantillons (eaux des marais, sels). Dans un premier temps, une recherche de microorganismes et une étude sur les traces d'ADNr-16S présent sur les cristaux de sel, ont permis de caractériser une partie du microbiote halophile se développent au niveau des bassins de production du sel de mer, alors que leur teneur en sel peut aller jusqu'à 25 %. Dans un second temps, une recherche de composés volatils a été conduite afin de déterminer si l'environnement pouvait influencer l'empreinte olfactive des eaux des marais et du sel lors de sa formation et / ou de sa récolte. Un protocole d'extraction et d'analyses a été développé et a permis la mise en évidence d'un profil en composés volatils propre à chaque bassin. Parmi les composés volatils détectés, de nombreux norisoprénoïdes, provenant probablement de la dégradation de caroténoïdes produits par les microorganismes halophiles, ont ainsi été identifiés : pour le « bassin » Ile de Ré, 21 composés volatils ont été identifiés dont 8 composés dérivés des caroténoïdes (CDC) ; pour le « bassin » de Noirmoutier, 13 composés dont 7 CDC ; pour le « bassin » de Saint-Armel, 54 composés dont 25 CDC ; pour le « bassin » Guérandais, 19 composés dont 10 CDC.D'une façon générale, les résultats obtenus aussi bien d'un point de vue microbiologique que chimique, ont révélé une forte corrélation entre les marais salants et le sel qu'ils produisent : les microorganismes spécifiques d'un environnement laissent des empreintes sur les eaux et le sel, ce qui permettrait notamment aux paludiers de caractériser leur produit en vue d'une protection basée sur de véritables marqueurs propres à chaque marais (pour des origines distantes de quelques kilomètres, des différences sont déjà notables entre salines tant au niveau « odeur » qu'au niveau microbiote). / Salt has always been exploited in living memory. It has known its heyday at several occasions throughout history, particularly during the period of the French Gabelle, and therefore came to be seen as a precious white metal both sought after and expensive. Yet, nowadays, although it has been considered as an essential mineral, it has also turned up to be unhealthy when taken in excessive amounts. Consequently, salt workers of our day and age have to highlight the genuine nature of their product as well as their ancestral skills, for they both stand out as tokens of quality for our contemporaries. Meeting the expectations of the consumer is the only way for them to keep up with their work and maintain their share on the market. Thus, this study aimed to define ways for salt workers to have their work preserved, for instance throughout a Protected Designation of Origin. Therefore, a partnership with Atlantic French salt workers (from Ré Island, Noirmoutier, Guérande and Saint-Armel) has been established, allowing us to collect samples of salt marsh water and salts.First, an overview of microorganism population and 16S-rDNA in each water or salt sample permitted to define what kinds of microorganism populations were to be found in salt marshes. Secondly, a search for volatile components was led so as to determine whether the environment might affect the olfactory footprint of salt marshes and of salt itself during its formation and its harvest. A process of extraction and analysis has been developed, shedding light on a link between the origin and the olfactory footprint of salt. As an example, the halophilous microorganisms which are extremely rich in carotenoid (hence the red-orange colour of some marshes) are partly responsible for the presence of norisoprenoids in the volatile components which have been identified: 21 compounds were identified in Ré Island (including 8 norisoprenoids), 13 in Noirmoutier (including 7 norisoprenoids), 54 in Saint-Armel (including 25 norisoprenoids),19 in Guérande (including 10 norisoprenoids).For each area, DNA traces and volatile profiles were identified. Therefore, a strong link can be established between salt marshes and the salt they produce. It appears that the differences between salt flats regarding either their smell or their microbiota is always noteworthy, even when marshes are only a few miles apart. Thus, the specific pool of the identified microorganisms which leave prints on the salt would allow saltworkers to define their product so as to ensure a form of protection based on specific markers which are proper to each marsh.

Marais salants

Sel

Dunaliella salina

Norisoprénoïdes

ADNr-16S

Typicité

Caroténoïdes

Halobactéries

Salt

Salt marshes

Dunaliella salina

Norisoprenoids

16S-rADN

Typicity

Carotenoids

Halobacteria

Historical inventory of sedimentary carbon and metals in a Bay of Fundy salt marsh

Clegg, Yolanda.

January 1999

No description available.

Carbon sequestration -- Fundy, Bay of.

Estuarine sediments -- Fundy, Bay of.

Salt marshes -- Fundy, Bay of.