Indigenous Sustainable Wisdom: First-Nation Know-How for Global Flourishing

Indigenous Sustainable Wisdom: First Nation Know-How for Global Flourishing’s contributors describe ways of being that reflect a worldview that has guided humanity for 99% of human history; they describe the practical traditional wisdom stemming from Nature-based relational cultures that were or are guided by this worldview. Such cultures did not cause the kinds of anti-Nature and de-humanizing or inequitable policies and practices that now pervade our world. Far from romanticizing Indigenous histories, Indigenous Sustainable Wisdom offers facts about how human beings, with our potential for good and evil behaviors, can live in relative harmony again. Contributions cover views from anthropology, psychology, sociology, leadership, native science, native history, native art

ED012. Potencial efecto del cambio climático en la biodiversidad de invertebrados del suelo en Yasuní

Climate change is a current global problem induced anthropically, which predicts drier and warmer future conditions with strong drought events and high temperatures for much of the Amazon region. Additionally, negative repercussions on ecosystem function mediated by the edaphic fauna (i.e decomposition of organic matter) are expected. Based on these projections, the focus of this study is on the impact of warming and drought on the structure of soil invertebrate communities in an Amazonian tropical forest through their response in terms of abundance, diversity, and functional groups to drought exposure and/or increased temperature. The experimental design was carried out in the Yasuní National Park, in an area of 15 × 20 m with 40 × 45 cm quadrants to expose them to a 3 °C increase in surface soil temperature and drought induction by installing small roofs that isolate water. Preliminary results are shown with the processing of 20 % of samples. The morphospecies under study were grouped into clusters according to their function. Additionally, the effect of the treatments was overlapped according to the NMDS (Non-Metric Multidimensional Scaling) analysis, suggesting that there is little difference between them. Moreover, the most abundant groups were those of ants and mites. In this way, it will be possible to show if this trend is maintained or changed when processing 100 % of the samples. This research demonstrates that understanding soil biodiversity can help us reconnect ecosystem services with soil biodiversity, in search of maintaining a balance in their functions.El cambio climático es una problemática actual global inducida antrópicamente, que predice condiciones futuras más secas y cálidas con fuertes eventos de sequía y altas temperaturas para gran parte de la región amazónica. Adicionalmente, se esperan repercusiones negativas en la funcionalidad del ecosistema mediada por la fauna edáfica (ej. descomposición de la materia orgánica). En base a estas proyecciones, el enfoque de este estudio se centra en el impacto del calentamiento y sequía en la estructura de comunidades de invertebrados del suelo en un bosque tropical amazónico mediante su respuesta en términos de abundancia, diversidad y grupos funcionales ante la exposición a sequía y/o al aumento de temperatura. El diseño experimental se llevó a cabo en el Parque Nacional Yasuní, en un área de 15 × 20 m con cuadrantes de 40 × 45 cm para exponerlos a un aumento de 3 °C en la temperatura del suelo superficial y la inducción a la sequía instalando pequeños techos que aíslen el agua. Se muestran resultados preliminares con el procesamiento del 20 % de muestras. Las morfoespecies en estudio se agruparon en conglomerados acorde a su función. Adicionalmente, el efecto de los tratamientos se vio solapado según el análisis del NMDS (escalamiento multidimensional no métrico), lo que sugiere que existe poca diferencia entre ellos. Además, los grupos más abundantes fueron los de las hormigas y ácaros. De esta manera, se podrá evidenciar si esta tendencia se mantiene o cambia al procesar el 100 % de las muestras. Mediante esta investigación se demuestra que comprender la biodiversidad del suelo puede ayudarnos a reconectar los servicios de los ecosistemas con la biodiversidad edáfica, en búsqueda de mantener el equilibrio en sus funciones

Progression of diabetes retinal status within community screening programmes and potential implications for screening intervals

Objective This study aimed to follow the natural progression of retinal changes in patients with diabetes. Such information should inform decisions with regard to the screening intervals for such patients Research Design and Methods An observational study was undertaken linking the data from seven diabetes retinal screening programmes across the UK for retinal grading results between 2005 and 2012. Patients with absent or background retinopathy were followed up for progression to the endpoints referable retinopathy, and treatable retinopathy (proliferative retinopathy). Results In total 354,549 patients were observed for up to four years during which 16,196 progressed to referable retinopathy. Of patients with no retinopathy in either eye for two successive screening episodes at least 12 months apart between 0.3 (95% confidence interval 0.3-0.8)% and 1.3 (1.0-1.6)% progressed to referable retinopathy and rates of treatable eye disease were less than 0.3% at two years. The corresponding progression rates for patients with bilateral background retinopathy in successive screening episodes was 13-29% and up to 4% respectively in the different programmes. Conclusions It may be possible to risk stratify patients according to baseline retinal criteria into low and high risk of progressing to proliferative retinopathy. Screening intervals for such diverse groups of patients could safely be modified according to their risk

Simulating rewetting events in intermittent rivers and ephemeral streams: a global analysis of leached nutrients and organic matter

Climate change and human pressures are changing the global distribution and extent of intermittent rivers and ephemeral streams (IRES), which comprise half of the global river network area. IRES are characterized by periods of flow cessation, during which channel substrates accumulate and undergo physico‐chemical changes (preconditioning), and periods of flow resumption, when these substrates are rewetted and release pulses of dissolved nutrients and organic matter (OM). However, there are no estimates of the amounts and quality of leached substances, nor is there information on the underlying environmental constraints operating at the global scale. We experimentally simulated, under standard laboratory conditions, rewetting of leaves, riverbed sediments, and epilithic biofilms collected during the dry phase across 205 IRES from five major climate zones. We determined the amounts and qualitative characteristics of the leached nutrients and OM, and estimated their areal fluxes from riverbeds. In addition, we evaluated the variance in leachate characteristics in relation to selected environmental variables and substrate characteristics. We found that sediments, due to their large quantities within riverbeds, contribute most to the overall flux of dissolved substances during rewetting events (56‐98%), and that flux rates distinctly differ among climate zones. Dissolved organic carbon, phenolics, and nitrate contributed most to the areal fluxes. The largest amounts of leached substances were found in the continental climate zone, coinciding with the lowest potential bioavailability of the leached organic matter. The opposite pattern was found in the arid zone. Environmental variables expected to be modified under climate change (i.e. potential evapotranspiration, aridity, dry period duration, land use) were correlated with the amount of leached substances, with the strongest relationship found for sediments. These results show that the role of IRES should be accounted for in global biogeochemical cycles, especially because prevalence of IRES will increase due to increasing severity of drying events

Simulating rewetting events in intermittent rivers and ephemeral streams: A global analysis of leached nutrients and organic matter

Climate change and human pressures are changing the global distribution and the ex‐ tent of intermittent rivers and ephemeral streams (IRES), which comprise half of the global river network area. IRES are characterized by periods of flow cessation, during which channel substrates accumulate and undergo physico‐chemical changes (precon‐ ditioning), and periods of flow resumption, when these substrates are rewetted and release pulses of dissolved nutrients and organic matter (OM). However, there are no estimates of the amounts and quality of leached substances, nor is there information on the underlying environmental constraints operating at the global scale. We experi‐ mentally simulated, under standard laboratory conditions, rewetting of leaves, river‐ bed sediments, and epilithic biofilms collected during the dry phase across 205 IRES from five major climate zones. We determined the amounts and qualitative character‐ istics of the leached nutrients and OM, and estimated their areal fluxes from riverbeds. In addition, we evaluated the variance in leachate characteristics in relation to selected environmental variables and substrate characteristics. We found that sediments, due to their large quantities within riverbeds, contribute most to the overall flux of dis‐ solved substances during rewetting events (56%–98%), and that flux rates distinctly differ among climate zones. Dissolved organic carbon, phenolics, and nitrate contrib‐ uted most to the areal fluxes. The largest amounts of leached substances were found in the continental climate zone, coinciding with the lowest potential bioavailability of the leached OM. The opposite pattern was found in the arid zone. Environmental vari‐ ables expected to be modified under climate change (i.e. potential evapotranspiration, aridity, dry period duration, land use) were correlated with the amount of leached sub‐ stances, with the strongest relationship found for sediments. These results show that the role of IRES should be accounted for in global biogeochemical cycles, especially because prevalence of IRES will increase due to increasing severity of drying event

Extensive fishpond dam effects on ecological headwater stream functioning in different environmental contexts : A case study of fishpond dams in the Lorraine plain

La France compte de nombreux étangs (environ 251 000), construits le plus souvent par l’aménagement d’un barrage sur un cours d’eau de tête de bassin, dans des fonds de vallées argileux, pour la production de poissons. La Lorraine est une région riche en étangs et ces derniers sont le plus souvent localisés sur des cours d’eau temporaires dans des bassins versants agricoles et/ou forestiers. Ces cours d’eau ont un fonctionnement écologique basé sur l’intégration, par les réseaux trophiques détritiques, des ressources organiques allochtones. Or, les étangs constituent des zones lentiques biogènes : la matière organique (MO) autochtone (constituée entre autres par le plancton, les macrophytes, les fèces produits par le biote) peut modifier les équilibres – souvent fragiles – de ces écosystèmes aquatiques de tête de bassin. L’objectif de ce travail de thèse est d’étudier l’influence des étangs de barrage sur le recyclage et l’intégration de la MO allochtone et autochtone par les réseaux trophiques basaux aquatiques des cours d’eau de tête de bassin. Premièrement, ce travail a porté sur l’étude de la décomposition des litières (et des communautés associées) en amont et en aval d’étangs localisés sur des bassins soit agricoles, soit forestiers. Nos résultats mettent en exergue l’intérêt de la prise en compte de l’occupation du sol sur le bassin versant pour appréhender au mieux l’effet des étangs sur les processus de décomposition des litières. Nous montrons ainsi que l’étang de barrage entraîne une diminution de la vitesse de décomposition des litières, en lien notamment avec une diminution de la biomasse fongique, uniquement dans les cours d’eau en milieu agricole. Sur les cours d’eau forestiers, ce sont essentiellement les communautés de macroinvertébrés qui semblent influencées, et de manière plus marquée qu’en milieu agricole, avec une diminution des taxons les plus sensibles aux pollutions organiques. Puis, nous avons cherché à préciser les processus de décomposition des litières dans les cours d’eau temporaires de tête de bassin versant entravés ou non par un étang. Notre choix s’est porté sur les cours d’eau en milieu forestier afin de limiter les effets confondants liés à d’autres perturbations humaines. Dans ces conditions, nos résultats montrent que la présence d’un étang tend à augmenter la vitesse de décomposition des litières. Cela serait dû à un meilleur conditionnement des litières et également à une modification des communautés de déchiqueteurs en aval de l’étang. En revanche, l’effet de l’étang sur l’intégration des ressources allochtones par les réseaux trophiques détritiques nécessite la prise en compte des conditions hydrologiques se présentant à l’aval du barrage. Il s’agit là d’un résultat original révélant que l’impact de l’étang est plus marqué sur les communautés de déchiqueteurs et sur leur action de dégradation des litières lorsque le cours d’eau passe en régime permanent à l’aval de l’étang. Enfin, nous nous sommes intéressés à la modification des niches trophiques à partir de l’étude des signatures isotopiques des communautés de macro-invertébrés de cours d’eau entravés ou non par un étang. Nos résultats montrent que l’étang influence majoritairement les signatures isotopiques des biofilms et des matières en suspension. En lien avec cette observation, nous remarquons que les niches isotopiques des différentes guildes trophiques de macro-invertébrés sont modifiées à l’aval de l’étang. Ce résultat souligne ainsi que l’ensemble des guildes trophiques ici étudiées consomment et intègrent les ressources autochtones produites au sein même de l’étang. Pour résumer, ce travail a mis en évidence les interactions complexes entre étang et cours d’eau de tête de bassin. Il souligne de fait la nécessité de prendre en compte l’occupation du sol sur les bassins versant et le régime hydrologique du cours d’eau pour conclure sur l’effet de l’étang sur le fonctionnement écologique des cours d’eau de tête de bassin.In France there are more than 250,000 ponds. Most often, they are dam reservoirs constructed on headwater streams in clay valleys for fish production and thus named fishponds. In Lorraine region, most of the numerous fishponds are located on temporary streams (i.e. periodically dry during summer time) in agricultural and/or forested catchments. These streams have an ecological functioning based on the integration of allochthonous organic matter (OM) resources by the basal detrital food webs. Yet, fishponds constitute biogenic lentic systems that favor autochthonous OM production (e.g. plankton, macrophytes, faeces). Consequently, fishponds could disrupt the fragile balances in these headwater stream ecosystems. The goal of my thesis was to study the effect of fishpond on the recycling and the integration of allochthonous and autochthonous OM by the aquatic food webs within headwater streams. First, we studied the litter decomposition (and the associated communities) between upstream and downstream fishponds located in agricultural or forested catchments. Our results indicate the needs to take into account the catchment land uses to grasp the fishpond effect on litter decomposition. We found that in agricultural catchments fishponds lead to a decrease of the litter breakdown rate in association with a fungal biomass decrease. In forested catchments, the macro-invertebrate assemblages are more affected than in agricultural catchments, showing a decrease of the most sensitive taxa to organic pollution. Secondly, we focused on litter processes in temporary headwater streams hampered or not by a fishpond. To this end, we worked on forest streams to exclude confounding anthropogenic effects. In this environment our results indicate that the presence of a fishpond tends to increase litter breakdown rate. It can be related with a better litter conditioning and to the shredder assemblage’s modification downstream from the fishpond. Furthermore, fishpond effect on the integration of allochthonous resources by food webs was found to be highly dependent on hydrological conditions downstream from the fishpond. This original result highlights that the impact of the fishpond seems to be greater on the shredder assemblages and on their litter breakdown activities when the stream show important hydrological modifications (i.e. become permanent downstream from the fishpond). Finally, in order to analyze the modification of trophic niches, we studied benthic macroinvertebrate isotopic signatures in streams hampered or not by a fishpond. Our results indicate that fishpond mainly influenced the isotopic signatures of biofilms and suspended OM. In line with this result, isotopic niches of the different macroinvertebrate trophic guilds are also modified downstream from the pond. Consequently we may suggest that all the studied trophic guilds consume and integrate autochthonous resources produced into the fishpond. In summary, our work highlights complex interactions between fishpond and headwater streams and underlines the needs to take into account the catchment land use and the stream hydrology before concluding on the fishpond effect on stream functioning

Effet des étangs de barrage à vocation piscicole sur le fonctionnement écologique des cours d'eau de tête de bassin dans des contextes environnementaux différents : le cas des étangs de plaine en Lorraine

In France there are more than 250,000 ponds. Most often, they are dam reservoirs constructed on headwater streams in clay valleys for fish production and thus named fishponds. In Lorraine region, most of the numerous fishponds are located on temporary streams (i.e. periodically dry during summer time) in agricultural and/or forested catchments. These streams have an ecological functioning based on the integration of allochthonous organic matter (OM) resources by the basal detrital food webs. Yet, fishponds constitute biogenic lentic systems that favor autochthonous OM production (e.g. plankton, macrophytes, faeces). Consequently, fishponds could disrupt the fragile balances in these headwater stream ecosystems. The goal of my thesis was to study the effect of fishpond on the recycling and the integration of allochthonous and autochthonous OM by the aquatic food webs within headwater streams. First, we studied the litter decomposition (and the associated communities) between upstream and downstream fishponds located in agricultural or forested catchments. Our results indicate the needs to take into account the catchment land uses to grasp the fishpond effect on litter decomposition. We found that in agricultural catchments fishponds lead to a decrease of the litter breakdown rate in association with a fungal biomass decrease. In forested catchments, the macro-invertebrate assemblages are more affected than in agricultural catchments, showing a decrease of the most sensitive taxa to organic pollution. Secondly, we focused on litter processes in temporary headwater streams hampered or not by a fishpond. To this end, we worked on forest streams to exclude confounding anthropogenic effects. In this environment our results indicate that the presence of a fishpond tends to increase litter breakdown rate. It can be related with a better litter conditioning and to the shredder assemblage’s modification downstream from the fishpond. Furthermore, fishpond effect on the integration of allochthonous resources by food webs was found to be highly dependent on hydrological conditions downstream from the fishpond. This original result highlights that the impact of the fishpond seems to be greater on the shredder assemblages and on their litter breakdown activities when the stream show important hydrological modifications (i.e. become permanent downstream from the fishpond). Finally, in order to analyze the modification of trophic niches, we studied benthic macroinvertebrate isotopic signatures in streams hampered or not by a fishpond. Our results indicate that fishpond mainly influenced the isotopic signatures of biofilms and suspended OM. In line with this result, isotopic niches of the different macroinvertebrate trophic guilds are also modified downstream from the pond. Consequently we may suggest that all the studied trophic guilds consume and integrate autochthonous resources produced into the fishpond. In summary, our work highlights complex interactions between fishpond and headwater streams and underlines the needs to take into account the catchment land use and the stream hydrology before concluding on the fishpond effect on stream functioning.La France compte de nombreux étangs (environ 251 000), construits le plus souvent par l’aménagement d’un barrage sur un cours d’eau de tête de bassin, dans des fonds de vallées argileux, pour la production de poissons. La Lorraine est une région riche en étangs et ces derniers sont le plus souvent localisés sur des cours d’eau temporaires dans des bassins versants agricoles et/ou forestiers. Ces cours d’eau ont un fonctionnement écologique basé sur l’intégration, par les réseaux trophiques détritiques, des ressources organiques allochtones. Or, les étangs constituent des zones lentiques biogènes : la matière organique (MO) autochtone (constituée entre autres par le plancton, les macrophytes, les fèces produits par le biote) peut modifier les équilibres – souvent fragiles – de ces écosystèmes aquatiques de tête de bassin. L’objectif de ce travail de thèse est d’étudier l’influence des étangs de barrage sur le recyclage et l’intégration de la MO allochtone et autochtone par les réseaux trophiques basaux aquatiques des cours d’eau de tête de bassin. Premièrement, ce travail a porté sur l’étude de la décomposition des litières (et des communautés associées) en amont et en aval d’étangs localisés sur des bassins soit agricoles, soit forestiers. Nos résultats mettent en exergue l’intérêt de la prise en compte de l’occupation du sol sur le bassin versant pour appréhender au mieux l’effet des étangs sur les processus de décomposition des litières. Nous montrons ainsi que l’étang de barrage entraîne une diminution de la vitesse de décomposition des litières, en lien notamment avec une diminution de la biomasse fongique, uniquement dans les cours d’eau en milieu agricole. Sur les cours d’eau forestiers, ce sont essentiellement les communautés de macroinvertébrés qui semblent influencées, et de manière plus marquée qu’en milieu agricole, avec une diminution des taxons les plus sensibles aux pollutions organiques. Puis, nous avons cherché à préciser les processus de décomposition des litières dans les cours d’eau temporaires de tête de bassin versant entravés ou non par un étang. Notre choix s’est porté sur les cours d’eau en milieu forestier afin de limiter les effets confondants liés à d’autres perturbations humaines. Dans ces conditions, nos résultats montrent que la présence d’un étang tend à augmenter la vitesse de décomposition des litières. Cela serait dû à un meilleur conditionnement des litières et également à une modification des communautés de déchiqueteurs en aval de l’étang. En revanche, l’effet de l’étang sur l’intégration des ressources allochtones par les réseaux trophiques détritiques nécessite la prise en compte des conditions hydrologiques se présentant à l’aval du barrage. Il s’agit là d’un résultat original révélant que l’impact de l’étang est plus marqué sur les communautés de déchiqueteurs et sur leur action de dégradation des litières lorsque le cours d’eau passe en régime permanent à l’aval de l’étang. Enfin, nous nous sommes intéressés à la modification des niches trophiques à partir de l’étude des signatures isotopiques des communautés de macro-invertébrés de cours d’eau entravés ou non par un étang. Nos résultats montrent que l’étang influence majoritairement les signatures isotopiques des biofilms et des matières en suspension. En lien avec cette observation, nous remarquons que les niches isotopiques des différentes guildes trophiques de macro-invertébrés sont modifiées à l’aval de l’étang. Ce résultat souligne ainsi que l’ensemble des guildes trophiques ici étudiées consomment et intègrent les ressources autochtones produites au sein même de l’étang. Pour résumer, ce travail a mis en évidence les interactions complexes entre étang et cours d’eau de tête de bassin. Il souligne de fait la nécessité de prendre en compte l’occupation du sol sur les bassins versant et le régime hydrologique du cours d’eau pour conclure sur l’effet de l’étang sur le fonctionnement écologique des cours d’eau de tête de bassin

Catchment land use-dependent effects of barrage fishponds on the functioning of headwater streams

International audienceExtensive fish production systems in continental areas are often created by damming headwater streams. However, these lentic systems favour autochthonous organic matter production. As headwater stream functioning is essentially based on allochthonous organic matter (OM) supply, the presence of barrage fishponds on headwater streams might change the main food source for benthic communities. The goal of this study was thus to identify the effects of barrage fishponds on the functioning of headwater streams. To this end, we compared leaf litter breakdown (a key ecosystem function in headwater streams), their associated invertebrate communities and fungal biomass at sites upstream and downstream of five barrage fishponds in two dominant land use systems (three in forested catchments and two in agricultural catchments). We observed significant structural and functional differences between headwater stream ecosystems in agricultural catchments and those in forested catchments. Leaf litter decay was more rapid in forest streams, with a moderate, but not significant, increase in breakdown rate downstream from the barrage fishponds. In agricultural catchments, the trend was opposite with a 2-fold lower leaf litter breakdown rate at downstream sites compared to upstream sites. Breakdown rates observed at all sites were closely correlated with fungal biomass and shredder biomass. No effect of barrage fishponds were observed in this study concerning invertebrate community structure or functional feeding groups especially in agricultural landscapes. In forest streams, we observed a decrease in organic pollution (OP)-intolerant taxa at downstream sites that was correlated with an increase in OP-tolerant taxa. These results highlighted that the influence of barrage fishponds on headwater stream functioning is complex and land use dependent. It is therefore necessary to clearly understand the various mechanisms (competition for food resources, complementarities between autochthonous and allochthonous OM) that control ecosystem functioning in different contexts in order to optimize barrage fishpond management

Using stable isotope approach to quantify pond dam impacts on isotopic niches and assimilation of resources by invertebrates in temporary streams: a case study

International audienceFishponds built across streams can greatly affect their functioning, especially through loss of ecological continuity but also changes in water availability and trophic resources. Yet, their consequences on communities and stream functioning remain largely understudied. We investigated effects of fishpond dams on the trophic ecology of macroinvertebrate communities in temporary low-order streams using C and N stable isotopes. Food resources and macroinvertebrates were sampled in one upstream and one downstream site of two temporary streams, one stream without (reference stream) versus one with a fishpond (impacted stream) and used for isotopic analyses. Results suggested moderate effects of fishponds on the upstream tributaries. In contrast, at the downstream impacted site, ten times higher macroinvertebrate biomass and modifications in the trophic niches were recorded, likely due to changes in resource availability/quality and dam-related hydrology. By modifying the food sources as well as water fluxes, fishpond dams tend to alter macroinvertebrate communities but also shift the trophic dynamics downstream. This assessment stresses the need for exploring their impacts on food webs and nutrient fluxes at larger downstream distances to better understand their effects before drawing conclusions in regard to their management

Long-term ecological trajectories of a disturbed Mediterranean coastal lagoon (Biguglia lagoon): ecosystem-based approach and considering its resilience for conservation?

Coastal lagoons are subjected to ever-increasing direct or indirect anthropic pressures and are inexorably deteriorating with serious issues regarding their resilience. In this paper, we assessed the functioning and evolution of the highly disturbed Biguglia coastal lagoon (Mediterranean Sea, Corsica) through an ecosystem-based approach (EBA), in using multiple biotic and abiotic proxies (hydro-climatic context, eutrophication), considering its connectivity to sea and watershed and biological compartments (macrophytes, phytoplankton, invasive species), and taking into account human influence (management actions, fishing activities). The aim of this work is firstly to provide a comprehensive analysis of its long-term (2000-2021) ecological evolution trajectory. Then, based on these results, to anticipate management strategies for supporting its conservation and restoration, and the maintenance of ecosystem services it offers. Results revealed that while the lagoon showed to these days a good capacity to recover after disturbance and absorb change, it recently exhibited considerable changes in its phytoplankton community composition, developed an increased susceptibility to biological invasion, and experimented a drastic reduction of its fish stocks. The major interannual variations of the mean salinity, strongly dependent on management interventions beyond natural climatic variability, summarized this instability. In the future, the lagoon may no longer be able to cope with even small disturbances, which could then be sufficient to reach a breakpoint and tip the system permanently into undesired/degraded states. We demonstrated that local and punctual management actions are not always beneficial for the entire ecosystem, or even detrimental in some instances. Such a retrospective ecosystem-based approach is fundamental for producing the holistic insights required to implement efficient integrated ecosystem management. This further helps enhancing lagoon resilience and hence preserve its ecosystem services in the context of increasing global changes. Such lessons are useful anywhere for comparable ecosystems