Hydrology, Herbivory, and the Decline of Spartina patens (Aiton) Muhl. in Outer Cape Cod Salt Marshes (Massachusetts, U.S.A.)

Smith, Stephen M.; Medeiros, Kelly; Tyrrell, Megan C.

doi:10.2112/jcoastres-d-10-00175.1

Cited by 26 publications

(21 citation statements)

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“…Our study shows that this vegetation shift is ongoing in Narragansett Bay salt marshes and confirms that S. patens salt meadow is declining in multiple marshes across the southern New England region (Smith 2009;Smith et al 2012;Warren and Niering 1993). Our long-term data from Coggeshall Marsh also demonstrate that these vegetation changes in Rhode Island salt marshes have accelerated in recent years coincident with extreme increases in sea levels during 2009-2010 (Goddard et al 2015).…”

Section: Discussionsupporting

confidence: 76%

“…We did not observe any evidence of crab herbivory (Smith et al 2012) or wrack formation prior to the onset of dieback on the mid-marsh platform. We documented dieback that was likely caused by crab herbivory, but this was along creek edges, while wrack was generally found at higher elevations on the marsh near the I. frutescens shrub zone.…”

Section: Discussioncontrasting

confidence: 62%

“…Our long-term data from Coggeshall Marsh also demonstrate that these vegetation changes in Rhode Island salt marshes have accelerated in recent years coincident with extreme increases in sea levels during 2009-2010 (Goddard et al 2015). However, whereas the S. patens decline in our study was primarily due to replacement by S. alterniflora, there was less evidence of impacts from encroaching S. alterniflora on outer Cape Cod where flooding stress and crab herbivory both contributed to high marsh dieback (Smith et al 2012). This indicates that multiple stressors may be acting synergistically to drive the loss of S. patens salt meadow from southern New England salt marshes.…”

Section: Discussionsupporting

confidence: 47%

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Vegetation Dynamics in Rhode Island Salt Marshes During a Period of Accelerating Sea Level Rise and Extreme Sea Level Events

Raposa

Weber

Ekberg

et al. 2015

Estuaries and Coasts

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Sea level rise is a major stressor on many salt marshes, and its impacts include creek widening, ponding, vegetation dieback, and drowning. Marsh vegetation changes have been associated with sea level rise across southern New England, but most of these studies pre-date the current period of rapidly accelerating sea level rise coupled with episodic events of extreme increases in water levels. Here, we combine data from two salt marsh monitoring and assessment programs in Rhode Island that were designed to assess marsh responses to sea level rise and use these data to document temporal and spatial patterns in marsh vegetation during the current period of extreme water level increases. Vegetation monitoring at two Narragansett Bay salt marshes confirms the ongoing decline of the salt meadow species Spartina patens during this period as it becomes replaced by Spartina alterniflora. Bare ground resulting from vegetation dieback was significantly related to mean high water levels and led to the rapid conversion of mixed Spartina assemblages to S. alterniflora monocultures. A broader spatial assessment of RI marshes shows that S. alterniflora dominance increases at lower elevation marshes toward the mouth of Narraganset Bay. Our data provide additional evidence that S. patens continues to decline in southern New England marshes and show that losses can accelerate during periods of extreme high water levels. Unless adaptive management actions are taken, we predict that marshes throughout RI will continue to lose salt meadow habitat and eventually resemble lower elevation marshes that are already dominated by S. alterniflora monocultures.

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Section: Discussionsupporting

confidence: 76%

Section: Discussioncontrasting

confidence: 62%

Section: Discussionsupporting

confidence: 47%

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Vegetation Dynamics in Rhode Island Salt Marshes During a Period of Accelerating Sea Level Rise and Extreme Sea Level Events

Raposa

Weber

Ekberg

et al. 2015

Estuaries and Coasts

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“…However, over the last several decades it has become increasingly evident that marshes in New England, along the US coast, and indeed globally, are exhibiting a suite of physical and ecosystem alterations. These include marsh erosion and loss, changing plant community structure, and marsh plant dieback, and they appear to be shifting these ecosystems into different Pearson 2007, Castillo et al 2000, Donnelly and Bertness 2001, Gedan et al 2011, Hartig et al 2002, Holdredge et al 2009, Miller et al 2001, Smith 2009, Smith et al 2012, Tiner et al 2006, Warren and Niering, 1993. A major question that arises is how are resident and non-resident fauna that inhabit and/or utilize salt marsh ecosystems responding to changes occurring in many of these systems?…”

Section: Introductionmentioning

confidence: 99%

Spatial Ecology of Fiddler Crabs,Uca pugnax, in Southern New England Salt Marsh Landscapes: Potential Habitat Expansion in Relation to Salt Marsh Change

Luk

Zajac²

2013

Northeastern Naturalist

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DISCLAIMER The o p i n i o n s and recommendations expressed i n t h i s r e p o r t a r e t h o s e o f t h e a u t h o r s and do n o t n e c e s s a r i l y r e f l e c t t h e v i e w s o f t h e U.S. F i s h and W i l d l i f e S e r v i c e , n o r does t h e m e n t i o n o f t r a d e names c o n s t i t u t e endorsement o r recom1983-19--. Species p r o f i l e s : l i f e h i s t o r i e s and e n v i r o n m e n t a l r e q u i r e m e n t s o f c o a s t a l f i s h e s and i n v e r t e b r a t e s . U.S. Grimes, E.H., F!.T. Huish, J.H. Kerby, and 0. Moran. 1989. Species p r o f i l e s : 1 i f e h i s t o r i e s and e n v i r o n m e n t a l r e q u i r e m e n t s o f c o a s t a l f i s h e s and i n v e r t eb r a t e s ( M i d -A t l a n t i c ) --A t l a n t i c marsh f PREFACEThis species profile is one of a series on coastal aquatic organisms, principal ly fish, of sport, commercial, or ecological importance. The profiles are designed to provide coastal managers, engineers, and biologists with a brief comprehensive sketch of the biological characteristics and environmental requirements of the species and to describe how populations of the species may be expected to react to environmental changes caused by coastal development. Each profile has sections on taxonomy, 1 ife history, ecological role, environmental requirements, and economic importance, if appl icable. A three-ri ng binder is used for this series so that new profiles can be added as they are prepared. This project is jointly planned and financed by the U. S. Army Corps of Engineers and the U.S. Fish and Wildlife Service.

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“…An understanding of the primary causal mechanisms of dieback events is complicated by the complex interactions of biotic and abiotic factors, and many of the dieback symptoms are not unique to those caused by single agents (Elmer 2014). Thus, there is a need to consider the "multiple stress hypothesis" (Smith et al 2012;Mitchell et al 2013;Bergstrom et al 2015) in evaluating and describing this phenomenon. M. pigra has also been the subject of classical biological research control programs for more than 30 years and still remains a serious problem.…”

Section: Research Backgroundmentioning

confidence: 99%

Mimosa pigra dieback in the Northern Territory, Australia: Investigation into possible causes

Sacdalan¹

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In this study, Mimosa pigra dieback is described as plants or population of plants which appeared to suffer from ill health, death of their growing points and the emergence of green reshoots coming from the base. Dieback is an important phenomenon, not only in many crops and natural forests worldwide, but also in many invasive trees and shrubs in Australia. The dieback phenomenon is thought to be caused by complex and interacting factors and causes are often difficult to disentangle. In some cases it is a result of an interaction between both biotic and abiotic factors. Since 1988, dieback has been widely observed in Mimosa pigra L.(Fabaceae), a woody shrub that is one of the most serious exotic invaders of floodplains and riparian areas in the Top End of the Northern Territory. However, there has been no conclusive evidence of links between M. pigra dieback and specific causal factors. In addition, the dieback phenomenon has not been previously quantified.This thesis aimed to describe M. pigra dieback phenomenon at plant and population levels and its effect on plant growth, survival and demography. Specifically, the aim of this thesis was to evaluate the role of biotic factors (insect borers and fungal pathogens), and abiotic factors (soil pH and salinity), in relation to the development of M. pigra dieback. In addition, the thesis examines the pathogenicity of the fungal endophytes/pathogens associated with diebackaffected and healthy M. pigra. M. pigra has been a focus of biological control programs for more than 30 years, but it still remains a serious threat in the wetlands and conservation areas in the Top End of the Northern Territory. While extensive studies have been conducted to evaluate the impact of biological control programs, little is actually known about dieback and its causal factors.To evaluate the causal factors of M. pigra dieback, repeated ground surveys, plant health assessment and specimen collection of stems and soils, were conducted in the period 2011 to 2013 in established M. pigra sites on Melaleuca Station, Mary River, Northern Territory. Insect borers were quantified and putative fungal pathogen abundance were surveyed. A combined morphological and phylogenetic approach was used for fungal pathogens/endophyte identification. Using a subset of isolates, trials were performed to examine differences in the pathogenicity of the recovered fungal pathogens/endophytes.Results of field research showed that dieback in M. pigra is highly dynamic and fluctuates in its severity. Different sites showed increases and/or decreases in plant health over time.iii Dieback affects plants in all age classes, from seedlings, juveniles to adult plants, resulting in partial mortality of plants in all age categories over the trial period. Contrary to expectations, none of the biotic and abiotic factors examined showed a direct relationship to the changing population dynamics of M. pigra dieback over time. Nevertheless, fungal isolations demonstrated that M. pigra is a host to a diverse range of endop...

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Hydrology, Herbivory, and the Decline of Spartina patens (Aiton) Muhl. in Outer Cape Cod Salt Marshes (Massachusetts, U.S.A.)

Cited by 26 publications

References 50 publications

Vegetation Dynamics in Rhode Island Salt Marshes During a Period of Accelerating Sea Level Rise and Extreme Sea Level Events

Vegetation Dynamics in Rhode Island Salt Marshes During a Period of Accelerating Sea Level Rise and Extreme Sea Level Events

Spatial Ecology of Fiddler Crabs,Uca pugnax, in Southern New England Salt Marsh Landscapes: Potential Habitat Expansion in Relation to Salt Marsh Change

Mimosa pigra dieback in the Northern Territory, Australia: Investigation into possible causes

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