Your search keyword '"Martínez-Crego, Begoña"' showing total 14 results

1. Selection of multiple seagrass indicators for environmental biomonitoring

Author

Martínez-Crego, Begoña, Vergés, Adriana, Alcoverro, Teresa, and Romero, Javier

Published

2008

2. Resistance of seagrass habitats to ocean acidification via altered interactions in a tri-trophic chain.

Author

Martínez-Crego, Begoña, Vizzini, Salvatrice, Califano, Gianmaria, Massa-Gallucci, Alexia, Andolina, Cristina, Gambi, Maria Cristina, and Santos, Rui

Subjects

*OCEAN acidification, *FOOD chains, *SEA urchin populations, *HABITATS, *SEAGRASSES, *CARBON dioxide analysis

Abstract

Despite the wide knowledge about prevalent effects of ocean acidification on single species, the consequences on species interactions that may promote or prevent habitat shifts are still poorly understood. Using natural CO2 vents, we investigated changes in a key tri-trophic chain embedded within all its natural complexity in seagrass systems. We found that seagrass habitats remain stable at vents despite the changes in their tri-trophic components. Under high pCO2, the feeding of a key herbivore (sea urchin) on a less palatable seagrass and its associated epiphytes decreased, whereas the feeding on higher-palatable green algae increased. We also observed a doubled density of a predatory wrasse under acidified conditions. Bottom-up CO2 effects interact with top-down control by predators to maintain the abundance of sea urchin populations under ambient and acidified conditions. The weakened urchin herbivory on a seagrass that was subjected to an intense fish herbivory at vents compensates the overall herbivory pressure on the habitat-forming seagrass. Overall plasticity of the studied system components may contribute to prevent habitat loss and to stabilize the system under acidified conditions. Thus, preserving the network of species interactions in seagrass ecosystems may help to minimize the impacts of ocean acidification in near-future oceans. [ABSTRACT FROM AUTHOR]

Published

2020

3. Temporal variation in diatom communities associated to sediments of impacted versus non-impacted seagrass meadows of an estuarine lagoon.

Author

Da Rosa, Vanessa C., Martínez-Crego, Begoña, Santos, Rui O.P., Odebrecht, Clarisse, and Copertino, Margareth S.

Subjects

*DIATOMS, *POSIDONIA, *SEAGRASSES, *LAGOONS, *OCEAN temperature, *SEDIMENTS, *WIND speed, *FOSSIL diatoms

Abstract

Microphytobenthos play a key role as food resources at the base of the trophic web, particularly in sediments of highly productive seagrass meadows. Here, we investigated patterns of variation in microphytobenthic diatom communities and their driving factors in an impacted versus non-impacted meadow of Ruppia maritima in the Patos lagoon estuary (Brazil), across seasons in two consecutive years. We found higher taxa richness, diversity and equitability, together with lower dominance, at the non-impacted meadow. Seasonally, the same pattern was found in autumn and/or winter 2017 at both meadows, driven by the lower seawater temperature. Higher richness was related to lower river discharge and equitability to lower wind velocity. Diatom assemblages differed in species presence/absence and abundance between meadows, mostly due to higher phosphate at the impacted meadow, together with higher water transparency and sediment organic matter (2016) and with higher grain size (2017) for species presence/absence. Even diatom assemblages differed more in terms of species abundances than of presence/absence, Paralia sulcata and Tryblionela compressa (commonly reported as indicator of eutrophic conditions) were exclusively present at the impacted meadow, while Amphora charrua, Desikaneis howellii, D. simplex (commonly in undisturbed environments) did so at the non-impacted meadow. Often two species were responsible for more than half the dissimilarities in abundances, with Catenula adhaerens dominating at the impacted meadow and Ambo tenuissimus at the non-impacted meadow. Overall, the combination of natural and anthropogenic environmental factors acted together to determine between-meadow and seasonal patterns of variation in the presence and abundance of diatom species. [Display omitted] • We examined environmental drivers of variation in sediment-associated diatom communities. • Sediment of Ruppia maritima meadows contains a highly diverse community. • Richness and diversity were often lower, and dominance higher, at the impacted meadow. • Higher phosphate at the impacted meadow explained most between-meadow variation. • Seasonal variation was influenced by several factors related to both water and sediment. [ABSTRACT FROM AUTHOR]

Published

2023

4. Using seagrasses to identify local and large-scale trends of metals in the Mediterranean Sea.

Author

Roca, Guillem, Romero, Javier, Farina, Simone, Martínez-Crego, Begoña, and Alcoverro, Teresa

Subjects

SEAGRASSES, MARINE pollution, WATER quality, COASTAL zone management

Abstract

To manage trace metal pollution it is critical to determine how much temporal trends can be attributed to local or large-scale sources. We tracked changes in metal content in the seagrass Posidonia oceanica , along the NW Mediterranean from 2003 to 2010. While Cu, Cd and Ni showed a large inter-site variation, likely due to local factors, Fe, Mn and Pb showed little local variation and synchronous interannual variability across sites, most likely due to large-scale sources. Zn showed equal importance of local and large-scale sources of variation. Temporal trends of Ni, Zn, Cd, Cu remained almost stable. In contrast, Fe, Mn and Pb slightly increased in the last decade. These trends suggest that metals like Cu, Cd, Ni can be effectively managed at local scale. Whereas, elements like Fe, Mn and Pb have an important large-scale component that needs to be managed across the frontiers of national jurisdictions. [ABSTRACT FROM AUTHOR]

Published

2017

5. The Role of Seagrass Traits in Mediating Zostera noltei Vulnerability to Mesograzers.

Author

Martínez-Crego, Begoña, Arteaga, Pedro, Tomas, Fiona, and Santos, Rui

Subjects

*SEAGRASSES, *GRAZING, *PLANT habitats, *HERBIVORES, *PLANT phenols, *ZOSTERA

Abstract

Understanding how intra-specific differences in plant traits mediate vulnerability to herbivores of relevant habitat-forming plants is vital to attain a better knowledge on the drivers of the structure and functioning of ecosystems. Such studies, however, are rare in seagrass-mesograzer systems despite the increasingly recognized relevance of mesograzers as seagrass consumers. We investigated the role and potential trade-offs of multiple leaf traits in mediating the vulnerability of the seagrass Zostera noltei to different mesograzer species, the amphipod Gammarus insensibilis and the isopod Idotea chelipes. We worked with plants from two different meadows for which contrasting chemical and structural traits were expected based on previous information. We found that plants with high vulnerability to mesograzers (i.e. those preferred and subjected to higher rates of leaf area loss) had not only higher nitrogen content and lower C:N, fibre, and phenolics, but also tender and thinner leaves. No trade-offs between chemical and structural traits of the seagrass were detected, as they were positively correlated. When leaf physical structure was removed using agar-reconstituted food, amphipod preference towards high-susceptibility plants disappeared; thus indicating that structural rather than chemical traits mediated the feeding preference. Removal of plant structure reduced the size of isopod preference to less than half, indicating a stronger contribution of structural traits (> 50%) but combined with chemical/nutritional traits in mediating the preference. We then hypothesized that the high environmental nutrient levels recorded in the meadow exhibiting high susceptibility modulate the differences observed between meadows in seagrass traits. To test this hypothesis, we exposed low-vulnerability shoots to eutrophic nutrient levels in a 6-week enrichment experiment. Nutrient enrichment increased Z. noltei nitrogen content and lowered C:N, fibre, and phenolics, but had no effect on structural traits. Overall, our findings help to better understand the trait-mediated seagrass susceptibility to mesograzers and reinforce the increasingly recognized role of structural defences against herbivory. [ABSTRACT FROM AUTHOR]

Published

2016

6. Responses of seagrass to anthropogenic and natural disturbances do not equally translate to its consumers.

Author

Tomas, Fiona, Martínez‐Crego, Begoña, Hernán, Gema, and Santos, Rui

Subjects

*SEAGRASSES, *ECOLOGICAL disturbances, *EUTROPHICATION, *OCEAN acidification, *GRAZING, *EFFECT of human beings on climate change

Abstract

Coastal communities are under threat from many and often co-occurring local (e.g., pollution, eutrophication) and global stressors (e.g., climate change), yet understanding the interactive and cumulative impacts of multiple stressors in ecosystem function is far from being accomplished. Ecological redundancy may be key for ecosystem resilience, but there are still many gaps in our understanding of interspecific differences within a functional group, particularly regarding response diversity, that is, whether members of a functional group respond equally or differently to anthropogenic stressors. Herbivores are critical in determining plant community structure and the transfer of energy up the food web. Human disturbances may alter the ecological role of herbivory by modifying the defense strategies of plants and thus the feeding patterns and performance of herbivores. We conducted a suite of experiments to examine the independent and interactive effects of anthropogenic (nutrient and CO2 additions) and natural (simulated herbivory) disturbances on a seagrass and its interaction with two common generalist consumers to understand how multiple disturbances can impact both a foundation species and a key ecological function (herbivory) and to assess the potential existence of response diversity to anthropogenic and natural changes in these systems. While all three disturbances modified seagrass defense traits, there were contrasting responses of herbivores to such plant changes. Both CO2 and nutrient additions influenced herbivore feeding behavior, yet while sea urchins preferred nutrient-enriched seagrass tissue (regardless of other experimental treatments), isopods were deterred by these same plant tissues. In contrast, carbon enrichment deterred sea urchins and attracted isopods, while simulated herbivory only influenced isopod feeding choice. These contrasting responses of herbivores to disturbance-induced changes in seagrass help to better understand the ecological functioning of seagrass ecosystems in the face of human disturbances and may have important implications regarding the resilience and conservation of these threatened ecosystems. [ABSTRACT FROM AUTHOR]

Published

2015

7. Specificity in Mesograzer-Induced Defences in Seagrasses.

Author

Martínez-Crego, Begoña, Arteaga, Pedro, Ueber, Alexandra, Engelen, Aschwin H., Santos, Rui, and Molis, Markus

Subjects

*SEAGRASSES, *HERBIVORES, *AMPHIPODA, *GAMMARUS, *IDOTEA, *BEHAVIOR

Abstract

Grazing-induced plant defences that reduce palatability to herbivores are widespread in terrestrial plants and seaweeds, but they have not yet been reported in seagrasses. We investigated the ability of two seagrass species to induce defences in response to direct grazing by three associated mesograzers. Specifically, we conducted feeding-assayed induction experiments to examine how mesograzer-specific grazing impact affects seagrass induction of defences within the context of the optimal defence theory. We found that the amphipod Gammarus insensibilis and the isopod Idotea chelipes exerted a low-intensity grazing on older blades of the seagrass Cymodocea nodosa, which reflects a weak grazing impact that may explain the lack of inducible defences. The isopod Synischia hectica exerted the strongest grazing impact on C. nodosa via high-intensity feeding on young blades with a higher fitness value. This isopod grazing induced defences in C. nodosa as indicated by a consistently lower consumption of blades previously grazed for 5, 12 and 16 days. The lower consumption was maintained when offered tissues with no plant structure (agar-reconstituted food), but showing a reduced size of the previous grazing effect. This indicates that structural traits act in combination with chemical traits to reduce seagrass palatability to the isopod. Increase in total phenolics but not in C:N ratio and total nitrogen of grazed C. nodosa suggests chemical defences rather than a modified nutritional quality as primarily induced chemical traits. We detected no induction of defences in Zostera noltei, which showed the ability to replace moderate losses of young biomass to mesograzers via compensatory growth. Our study provides the first experimental evidence of induction of defences against meso-herbivory that reduce further consumption in seagrasses. It also emphasizes the relevance of grazer identity in determining the level of grazing impact triggering resistance and compensatory responses of different seagrass species. [ABSTRACT FROM AUTHOR]

Published

2015

8. Effects of nutrient enrichment on seagrass population dynamics: evidence and synthesis from the biomass-density relationships.

Author

Cabaço, Susana, Apostolaki, Eugenia T., García‐Marín, Patricia, Gruber, Renee, Hernández, Ignacio, Martínez‐Crego, Begoña, Mascaró, Oriol, Pérez, Marta, Prathep, Anchana, Robinson, Cliff, Romero, Javier, Schmidt, Allison L., Short, Fred T., Tussenbroek, Brigitta I., Santos, Rui, and Lee, John

Subjects

PLANT populations, BIOMASS, SEAGRASSES, ATMOSPHERIC turbidity, ALGAL blooms, COMPETITION (Biology)

Abstract

The available data from experimental and descriptive studies on seagrass biomass and density responses to nutrient enrichment were analysed to assess the intraspecific mechanisms operating within seagrass populations and whether biomass-density relationships can provide relevant metrics for monitoring seagrasses., The response of shoot biomass and density to nutrient enrichment was dependent on the type of study; the short-term positive response of biomass and density in experimental studies reveals context-specific nutrient limitation of seagrasses. The long-term negative response of descriptive studies probably results from ecosystem-scale events related to nutrient enrichment such as increased turbidity, algal blooms, epiphyte loads and anoxia., Most seagrass species analysed lie in the nonthinning part of the theoretical biomass-density curves. A simultaneous increase in biomass and decrease in density, evidence of self-thinning, were only observed in 4 of 28 studies. The analysis of both the static and the dynamic biomass-density relationships revealed that the slopes increase under nutrient enrichment. Surprisingly, the species-specific slopes (log B-log D) were higher than one, revealing that the B/D ratio, that is, the average shoot biomass, increases with density in all seagrass species analysed. Nutrient enrichment further enhanced this effect as biomass-density slopes increased to even higher values. The main drivers behind the increasing biomass-density slopes under nutrient enrichment were the increase in shoot biomass at densities above a species-specific threshold and/or its decrease below that threshold., Synthesis. Contrasting short- and long-term responses of both biomass and density of seagrasses to nutrient enrichment suggest that the former, positive ones result from nutrient limitation, whereas the later, negative ones are mediated by whole ecosystem responses. In general, shoot biomass of seagrasses increases with density, and nutrient enrichment enhances this effect. Experimental testing of facilitation processes related to clonal integration in seagrasses needs to be done to reveal whether they determine the low incidence of self-thinning and the intriguing biomass-density relationships of seagrass species. The increasing slopes and decreasing intercepts of the species-specific dynamic biomass-density relationships of seagrasses and the decreasing coefficients of variation of both biomass and density constitute relevant, easy-to-collect metrics that may be used in environmental monitoring. [ABSTRACT FROM AUTHOR]

Published

2013

9. Composition of epiphytic leaf community of Posidonia oceanica as a tool for environmental biomonitoring

Author

Martínez-Crego, Begoña, Prado, Patricia, Alcoverro, Teresa, and Romero, Javier

Subjects

*EPIPHYTES, *POSIDONIA oceanica, *ENVIRONMENTAL monitoring, *ENVIRONMENTAL quality, *BIOINDICATORS, *SEAGRASSES, *COASTAL ecosystem health, *HYDROZOA

Abstract

Abstract: The demand for sensitive biological tools to assess the environmental quality of coastal waters at broad spatial scales is increasing. Many of the tools used are based on the taxonomic composition of biotic assemblages. They usually require a valuable taxonomic expertise while are unique reflecting the overall ecosystem integrity. Here, we evaluate the potential indicator value of several features of the epiphytic community (overall assemblage composition, species richness, and proportion of the main taxonomic groups) growing on the seagrass Posidonia oceanica leaves. We do so by empirically examining their changes along a disturbance gradient where multiple human activities have interactive and cumulative impacts, sampling at different spatial scales and at two different depths (5 and 15 m). Our results show that the specific composition of the epiphytic assemblages (i.e. species composition) closely reflects, in the deep meadows, the combined effects of different anthropogenic stressors along the gradient, showing an integrative and non-specific response. Similarly, an increase in the proportion of hydrozoans, and a decrease in the proportion of rhodophytes and chlorophytes are observed in deep meadows along the gradient. In shallow meadows, grazing and biotic features of the seagrass seem the main forcing factors determining species composition, and therefore masking the response of epiphytes to the deterioration gradient. After address the effect of natural sources of variability (water depth, within- and between-meadow heterogeneity), changes in epiphyte assemblages and in the proportion of hydrozoans, rhodophytes and chlorophytes in relatively deep meadows seem promising monitoring tools for detecting coastal environmental deterioration. [Copyright &y& Elsevier]

Published

2010

10. A multivariate index based on the seagrass Posidonia oceanica (POMI) to assess ecological status of coastal waters under the water framework directive (WFD).

Author

Romero, Javier, Martínez-Crego, Begoña, Alcoverro, Teresa, and Pérez, Marta

Subjects

POSIDONIA oceanica, SEAGRASSES, ENVIRONMENTAL quality, COASTAL ecology

Abstract

Abstract: We propose here a multivariate index based on structural and functional attributes of the Posidonia oceanica ecosystem (Posidonia oceanica multivariate index: POMI) to assess the ecological status of coastal waters following WFD requirements. POMI is based on the combination, through principal component analysis, of physiological, morphological, structural and community level seagrass descriptors (or metrics), univocally related to environmental quality. Scores on the first axis are normalised to a 0–1 scale (EQR) using reference and worst sites. The index was tested by sampling 22 seagrass beds in the Catalan coast (ca. 500km, NW Mediterranean). The results show a clustering of variables on both sides of the first axis of the PCA, indicating a common relation of all metrics with ecological status. Moreover, the values (EQR) obtained reflect human pressure levels. The proposed index allows a practical and relatively simple assessment of the ecological status of coastal waters, and contains a considerable amount of ecological information, which can be useful for managing purposes. [Copyright &y& Elsevier]

Published

2007

11. The use of surface alkaline phosphatase activity in the seagrass Posidonia oceanica as a biomarker of eutrophication.

Author

Martínez-Crego, Begoña, Romero, Javier, and Alcoverro, Teresa

Subjects

*EUTROPHICATION, *LIMNOLOGY, *LAKE restoration, *MARINE plants, *AQUATIC plants, *SEAGRASSES, *MARINE ecology, *WATER quality, *WATER quality management, *POSIDONIA oceanica, *POSIDONIACEAE

Abstract

Eutrophication is one of the most relevant man-induced changes occurring in coastal waters. The identification and assessment of specific responses to eutrophication in seagrasses can provide a useful tool for the detection of changes in the water quality in coastal zones, given the wide range of distribution of these organisms. In this study, we combine a correlational (across-sites comparison) and a manipulative (fertilization experiment) approach to evaluate the usefulness and potential of alkaline phosphatase activity (APA) in the endemic Mediterranean seagrass Posidonia oceanica as an eutrophication biomarker. Our results showed that APA decreases promptly following nutrient additions, the response being maintained except during the winter period. APA also varies across natural meadows under different levels of nutrient discharges at scales relevant for monitoring purposes. AP activity seems to be an optimal ‘physiological biomarker’ that responds promptly and reliably to a pulse of eutrophication exposure. However, other considerations, such as the seasonality (the response disappears in winter), suggest its use with some caution and, as far as possible, as a complement of other bio-indicators. [ABSTRACT FROM AUTHOR]

Published

2006

12. Biodiversity consequences of Caulerpa prolifera takeover of a coastal lagoon.

Author

Parreira, Filipe, Martínez-Crego, Begoña, Lourenço Afonso, Carlos Manuel, Machado, Margarida, Oliveira, Frederico, Manuel dos Santos Gonçalves, Jorge, and Santos, Rui

Subjects

*CAULERPA, *LAGOONS, *SEAGRASSES, *BIODIVERSITY, *PLANT invasions, *SPECIES diversity, *ECONOMIC impact

Abstract

The genus Caulerpa has attracted much attention because many of its species were introduced into non-native regions and became notoriously invasive. This is the case of Caulerpa prolifera that has been rapidly expanding in Ria Formosa lagoon, taking over the deeper unvegetated soft bottoms and competing with seagrass meadows in the shallower areas. Here we address how C. prolifera invasion may affect the support of biodiversity, and specifically, the provision of habitat and nursery for commercial species by the native habitats of this coastal lagoon. Even though no significant differences in total species richness, diversity and evenness were found between C. prolifera and the native unvegetated habitat, the dissimilarity between these two habitats was highest, mostly driven by the extreme reduction of the gastropod Bittium reticulatum and of the tanaid Apseudopsis formosus. This may implicate changes in the trophic interactions of the ecosystem, for example decreasing the tanaid food source for seahorses, which are presently endangered in the lagoon. On the other hand, the fauna species richness, diversity and evenness were significantly higher in the native seagrass habitat than in C. prolifera. Juveniles of valuable flat and sparid fish were only observed in unvegetated sediments and seagrass meadows, respectively. The aggressive spread of C. prolifera in Ria Formosa may alter the structure of native faunal communities, with likely negative implications on fisheries. Nevertheless, the global biodiversity of the lagoon will not be likely drastically affected unless the seaweed takes over the seagrass meadows. • Caulerpa prolifera takeover in Ria Formosa will alter the structure of native faunal communities. • Nursery services for valuable flat and sparid fishes are negatively affected by Caulerpa prolifera spread. • The species richness and diversity is significantly reduced compared to seagrass meadows, but not to unvegetated habitats. • Caulerpa prolifera spread in Ria Formosa is expected to have economic implications. [ABSTRACT FROM AUTHOR]

Published

2021

13. Drivers of variation in seagrass-associated amphipods across biogeographical areas.

Author

Navarro-Mayoral, Sandra, Tuya, Fernando, Prado, Patricia, Marco-Méndez, Candela, Fernandez-Gonzalez, Victoria, Fernández-Torquemada, Yolanda, Espino, Fernando, Antonio de la Ossa, Jose, Vilella, David Mateu, Machado, Margarida, and Martínez-Crego, Begoña

Subjects

*POSIDONIA, *AMPHIPODA, *LEAF area, *SPECIES diversity, *SEAGRASSES, *BIOMASS

Abstract

Amphipods are one of the dominant epifaunal groups in seagrass meadows. However, our understanding of the biogeographical patterns in the distribution of these small crustaceans is limited. In this study, we investigated such patterns and the potential drivers in twelve Cymodocea nodosa meadows within four distinctive biogeographical areas across 2000 Km and 13° of latitude in two ocean basins (Mediterranean Sea and Atlantic Ocean). We found that species abundances in the assemblage of seagrass-associated amphipods differed among areas following a pattern largely explained by seagrass leaf area and epiphyte biomass, while the variation pattern in species presence/absence was determined by seagrass density and epiphyte biomass. Seagrass leaf area was also the most important determinant of greater amphipod total density and species richness, while amphipod density also increased with algal cover. Overall, our results evidenced that biogeographical patterns of variation in amphipod assemblages are mainly influenced by components of the habitat structure, which covary with environmental conditions, finding that structurally more complex meadows harboring higher abundance and richness of amphipods associated. • We examine drivers of variation in seagrass-associated amphipods across 2000 Km in two ocean basins. • Structurally more complex meadows host greater density and richness of amphipods. • Seagrass leaf area drives higher amphipod total density and species richness, and the former also increase with algal cover. • Seagrass density and epiphyte biomass drive variation in species identity, while leaf area and epiphyte biomass explain abundances. • Attributes of habitat structural complexity selected as predictors covary with environmental factors. [ABSTRACT FROM AUTHOR]

Published

2023

14. Detecting water quality improvement along the Catalan coast (Spain) using stress-specific biochemical seagrass indicators.

Author

Roca, Guillem, Alcoverro, Teresa, de Torres, Mariona, Manzanera, Marta, Martínez-Crego, Begoña, Bennett, Scott, Farina, Simone, Pérez, Marta, and Romero, Javier

Subjects

*ECOSYSTEM management, *SEAGRASSES, *WATER quality, *ENVIRONMENTAL quality, *CATALANS, *BIOINDICATORS

Abstract

Evaluating the efficacy of management actions to improve environmental quality is often difficult because there may be considerable lags before ecosystem management actions translate into measurable indicator responses. These delays make it difficult to justify often-expensive remedial actions to prevent eutrophication. Therefore, it is critical to identify reliable, rapid and sensitive indicators to detect degradation and environmental quality improvement. We evaluate the efficacy of a set of indicators based on the seagrass Posidonia oceanica to reliably and quickly detect ecosystem improvements using a 7-year (2003–2010) dataset of 10 stations along the Catalan coast (north-western Mediterranean Sea). In the Catalan region, environmental agencies have invested heavily on wastewater treatment, resulting in significant reductions (ca. 75%) in the BOD 5 discharged to coastal waters from 2003 to 2010. These improvements were clearly reflected at the regional level (i.e. for all the stations averaged) in six biochemical seagrass indicators from our dataset. These indicators were directly related to eutrophication (nitrogen, δ 15 N, phosphorus and total non-structural carbohydrates content in rhizomes, δ 34 S and δ 13 C in seagrass rhizomes and N content in epiphytes). In contrast, seagrass structural indicators, related to seagrass abundance or meadow structure (density, cover) did not show any sign of overall recovery during the monitored period. These results confirm that biochemical seagrass indicators are the most sensitive to water quality improvements within management time-scales (7–10 years) for slow-growing species like P. oceanica . Given the budgetary restrictions under which most management actions operate, the availability of decision-support tools that function at appropriate time-scales is crucial to help managers validate the relative success of their remedial efforts. Our results indicate that low inertia, biochemical seagrass indicators fit this task, and can be a robust set of tools to include in monitoring programmes. [ABSTRACT FROM AUTHOR]

Published

2015