Perceptions of system-identity and regime shift for marine ecosystems

2019 ◽  
Vol 76 (6) ◽  
pp. 1736-1747 ◽  
Author(s):  
Ingrid van Putten ◽  
Fabio Boschetti ◽  
Scott Ling ◽  
Shane A Richards
Keyword(s):  
Regime Shift ◽  
Cognitive Biases ◽  
Marine Ecosystems ◽  
Climate Impact ◽  
Regime Shifts ◽  
Reference Points ◽  
Scientific Uncertainty ◽  
Baseline Shift ◽  
Spatio Temporal ◽  
Evidenced Based

Abstract There is growing empirical evidence around the world demonstrating regime shifts of marine ecosystems. But generalizable criteria to detect and define regime shifts are elusive because of: (i) an incomplete scientific understanding of processes underlying regime shifts; (ii) because the baseline state and conditions are ill defined, and; (iii) due to an inherent ambiguity in the concept of system identity. We surveyed marine scientists in Tasmania, Australia, and determined the effect of changing conditions (including type of climate impact, species loss, species composition, spatio-temporal extent, and human intervention) on their perception of marine regime shift. We find, there is an objective difficulty in detecting regime shifts that goes beyond scientific uncertainty and there is disagreement on which configurations of change indeed constitute a regime shift. Furthermore, this difference of opinion was not related to the degree of confidence that scientists indicated when identifying regime shifts. This lack of consensus and seemingly unrelated scientific confidence, may be attributable to value ambiguity around people s attitudes, cognitive biases, and baseline shift. When applying evidenced-based reference points in well-reasoned Ecosystem Based Management, there should be scientific consensus on the manifestation and extent of specific regime shifts, and recognition of value ambiguities influencing scientific perceptions.

scholarly journals Spatio-Temporal Fish Catch Assessments Using Fishing Vessel Trajectories and Coastal Fish Landing Data from around Jeju Island

2021 ◽  
Vol 13 (24) ◽  
pp. 13841
Author(s):  
Solomon Amoah Owiredu ◽  
Kwang-Il Kim
Keyword(s):  
Management Practices ◽  
Temporal Distribution ◽  
Climate Change Impacts ◽  
Marine Ecosystems ◽  
Reference Points ◽  
Jeju Island ◽  
Commercial Fish ◽  
Fisheries Resources ◽  
Fishing Vessels ◽  
Spatio Temporal

While pressure on marine ecosystems leading to declines in global fish catches have been attributed to excessive fishing and to unregulated and unreported fishing, existing management practices have yet to fully address these declines. Estimation of spatial and temporal distribution of fisheries resources and the extent of fishing impacts on marine ecosystems using vessel trajectories has become central in recent studies. This study proposed the use of trajectories of 771 Korean coastal and offshore fishing vessels and one-year fish landing data to estimate variations in commercial fish species, vessel, and fishing gear activity distributions in the waters around Jeju island. A set of standards were applied to identify individual fishing tracks of major gears and uniformly distributed catch to fishing segments of trajectories to produce spatio-temporal distributions of catch, fishing activities, and vessel reliance on fishing grounds at a fine spatial scale. The method identified reference points that can inform management at local and regional scales. We discuss the opportunities of combining larger datasets collected over a longer period and applying predictive modeling techniques in making extensive assessments, including climate change impacts on fishing activities that can inform resource management and marine spatial planning.

scholarly journals Similarities, differences and mechanisms of climate impact on terrestrial vs. marine ecosystems

2019 ◽  
Vol 34 ◽  
pp. 505-523 ◽  
Author(s):  
Maurizio Ribera d’Alcalà
Keyword(s):  
Climate Change ◽  
Scientific Literature ◽  
Marine Ecosystems ◽  
Climate Impact ◽  
Step Change ◽  
The Other ◽  
Main Stream ◽  
Transfer Of Knowledge ◽  
Fluid Media ◽  
Two Fluid

Comparisons between terrestrial and marine ecosystems are generally not in the main stream of scientific literature even though Webb (2012) listed several points for which the transfer of knowledge and concepts related to one or to the other system would benefit our understanding of both. Even sharing this view, the leading hypothesis behind this contribution is that the pelagic system, where the dominant biotic component by number and biomass is microscopic, has specific features which strongly differentiate it from the above-the-surface terrestrial systems. Due to this, climate change, i.e. changes in temperature, precipitation and most importantly in the dynamics of the two fluid media, atmosphere and ocean, act with different mechanisms which prevents proceeding with analogies in many cases. In addition, the non-linearity of most of the processes and responses to perturbations requires, in order to obtain reliable forecasts or hindcasts, a detailed analysis of the path followed by the system which is normally overlooked in the step-change simulations or projections.

scholarly journals Approximating the Cost-of-Living Index for a Storable Good

2018 ◽  
Vol 10 (2) ◽  
pp. 286-314 ◽  
Author(s):  
Matthew Osborne
Keyword(s):  
Regime Shift ◽  
Structural Model ◽  
Regime Shifts ◽  
Cost Of Living ◽  
Product Categories ◽  
Dynamic Structural Model ◽  
Fixed Base ◽  
Retail Prices ◽  
The Cost ◽  
Cost Of Living Index

This paper estimates a cost-of-living index using a dynamic structural model for two storable product categories. In each category, regime shifts to higher or lower retail prices are observed. Fixed-base indexes do a poor job of capturing changes in welfare after a regime shift, and deviate from the dynamic index by as much as 300 percent. I evaluate the extent to which two recently proposed indexes can approximate the model-derived index. These indexes improve welfare measurement and are straightforward to compute. The category’s competitive structure and features of the regime shift determine which of the two provides a better approximation. (JEL C43, C51, E31, L11)

Spatio-temporal analysis of the climate impact on rice yield in north-west India

2018 ◽  
Vol 26 (4) ◽  
pp. 381-395 ◽  
Author(s):  
P. K. Kingra ◽  
Raj Setia ◽  
Satinder Kaur ◽  
Simranjeet Singh ◽  
Som Pal Singh ◽  
...  
Keyword(s):  
Rice Yield ◽  
Temporal Analysis ◽  
Climate Impact ◽  
North West ◽  
Spatio Temporal

Assessing Environment-Climate Impacts in the Nile Basin for Decision-making

2011 ◽  
pp. 694-712
Author(s):  
Farid El-Daoushy
Keyword(s):  
Natural Resources ◽  
Climate Impact ◽  
Climate Impacts ◽  
Nile Basin ◽  
Climatic Impacts ◽  
Spatio Temporal ◽  
Lake Catchment ◽  
Landscape Scales ◽  
Landscape Units ◽  
Land Water

Assessing the environmental and climatic impacts in the Nile Basin is imperative for appropriate decision and policy making on national and regional levels. Tracer techniques provide basic spatio-temporal tools for quantifying ongoing and past, and for predicting future, environmental and climatic impacts in whole Nile Basin. These tools allow the sustainable use of the natural resources through developing appropriate large-scale and long-term management and planning strategies. Radiotracers, for example, have diverse properties, unique sources and cycles in the environment. They provide powerful approaches to understand the behaviour of atmospheric processes, and the role of dry and wet-deposition on transfer of matter from the atmosphere to the earth’s surface. They are, also, useful for assessing the present status and evolution, as well as for quantifying the functioning and metabolism, in complex aquatic and land-water systems through appropriate definition of the spatio-temporal scales forcing their interactions with the environment and climate. They yield rich data on sources, pathways and flow-rates of matter (e.g. nutrients and pollutants) within and between landscape units and at the critical boundaries of the hydrosphere with the lithosphere, ecosphere and the atmosphere. Mitigation and adaptation strategies for coupled environment-climate policies require records and observations supported by model and forecasting infra-structures that can simulate the impacts of coupled environment-climate changes both on local and landscape scales. Impacts of global warming are not straightforward to predict unless reasonable scales can be used to compile and collate the diverse climatic and environmental data. Coordinated studies and observations of complex river-, lake-catchment, land-water and delta-coastal systems can provide a wide-range of information on human and climate impacts through using radiotracers as common time and space indicators for assessing the flow of matter on earth’s surface. In this context, the Nile Basin can serve as a model for coupled environment-climate impact studies in complex aquatic systems where sustainable management policies, e.g. use of natural resources, protection and rehabilitation, are needed.

scholarly journals Identification of Regime Shifts and Their Potential Drivers in the Shallow Eutrophic Lake Yilong, Southwest China

2020 ◽  
Vol 12 (9) ◽  
pp. 3704
Author(s):  
Lei Zhao ◽  
Mingguo Wang ◽  
Zhongyao Liang ◽  
Qichao Zhou
Keyword(s):  
Regime Shift ◽  
Eutrophic Lake ◽  
Regime Shifts ◽  
Nutrient Reduction ◽  
Eutrophic Lakes ◽  
Test Analysis ◽  
Key Drivers ◽  
High Possibility ◽  
Cage Fish

Regime shifts in shallow lakes can lead to great changes in ecosystem structures and functions, making ecosystem management more complicated. Lake Yilong, located in Yunnan Province, is one of the most eutrophic lakes in China. Although there is a high possibility that this lake has undergone regime shift one or more times, the presence of regime shifts and their drivers remain unknown. Here, we employed the sequential t-test analysis of regime shifts to detect the regime shifts based on the long-term (1989–2018) dataset of the lake. We further determined their potential drivers, and explored the nutrient thresholds of regime shifts and hysteresis. The results showed that during the testing period, three regime shifts occurred in 1996 (restorative type), 2009 (catastrophic type) and 2014 (restorative type). The potential key drivers for the first two regime shifts (1996 and 2009) were both related to aquaculture. The abolition of cage fish culture may have led to the restorative regime shift in 1996, and the stocking of crabs and excessive premature releasing of fry possibly caused the catastrophic regime shift in 2009. However, the third regime shift, which occurred in 2014, was possibly related to the drought and succedent hydration. These results indicate that adjustments of aquaculture strategy and hydrological conditions are critical for the lake ecosystem’s recovery. Moreover, the total phosphorus thresholds were identified to be lower than 0.046 mg/L (restorative type) and higher than 0.105 mg/L (catastrophic type), respectively. In addition, an obvious hysteresis was observed after 2014, suggesting that nutrient reduction is important for this lake’s management in the future.

scholarly journals Investigating fine-scale spatio-temporal predator-prey patterns in dynamic marine ecosystems: a functional data analysis approach

2012 ◽  
Vol 49 (2) ◽  
pp. 481-492 ◽  
Author(s):  
Clare B. Embling ◽  
Janine Illian ◽  
Eric Armstrong ◽  
Jeroen van der Kooij ◽  
Jonathan Sharples ◽  
...  
Keyword(s):  
Data Analysis ◽  
Functional Data Analysis ◽  
Functional Data ◽  
Marine Ecosystems ◽  
Analysis Approach ◽  
Fine Scale ◽  
Predator Prey ◽  
Spatio Temporal

scholarly journals Cascading regime shifts within and across scales

Science ◽  
2018 ◽  
Vol 362 (6421) ◽  
pp. 1379-1383 ◽  
Author(s):  
Juan C. Rocha ◽  
Garry Peterson ◽  
Örjan Bodin ◽  
Simon Levin
Keyword(s):  
Regime Shift ◽  
Regime Shifts ◽  
Control Case ◽  
Scale Interactions ◽  
Cascading Effects ◽  
Critical Transitions ◽  
Structural Interdependence

Regime shifts are large, abrupt, and persistent critical transitions in the function and structure of ecosystems. Yet, it is unknown how these transitions will interact, whether the occurrence of one will increase the likelihood of another or simply correlate at distant places. We explored two types of cascading effects: Domino effects create one-way dependencies, whereas hidden feedbacks produce two-way interactions. We compare them with the control case of driver sharing, which can induce correlations. Using 30 regime shifts described as networks, we show that 45% of regime shift pairwise combinations present at least one plausible structural interdependence. The likelihood of cascading effects depends on cross-scale interactions but differs for each type. Management of regime shifts should account for potential connections.

scholarly journals Regime shifts in marine communities: a complex systems perspective on food web dynamics

2016 ◽  
Vol 283 (1825) ◽  
pp. 20152569 ◽  
Author(s):  
Johanna Yletyinen ◽  
Örjan Bodin ◽  
Benjamin Weigel ◽  
Marie C. Nordström ◽  
Erik Bonsdorff ◽  
...  
Keyword(s):  
Food Web ◽  
Food Webs ◽  
Regime Shift ◽  
Relative Strength ◽  
Regime Shifts ◽  
Exponential Random Graph ◽  
Novel Approach ◽  
Before And After ◽  
Dynamic Perspective ◽  
The Baltic

Species composition and habitats are changing at unprecedented rates in the world's oceans, potentially causing entire food webs to shift to structurally and functionally different regimes. Despite the severity of these regime shifts, elucidating the precise nature of their underlying processes has remained difficult. We address this challenge with a new analytic approach to detect and assess the relative strength of different driving processes in food webs. Our study draws on complexity theory, and integrates the network-centric exponential random graph modelling (ERGM) framework developed within the social sciences with community ecology. In contrast to previous research, this approach makes clear assumptions of direction of causality and accommodates a dynamic perspective on the emergence of food webs. We apply our approach to analysing food webs of the Baltic Sea before and after a previously reported regime shift. Our results show that the dominant food web processes have remained largely the same, although we detect changes in their magnitudes. The results indicate that the reported regime shift may not be a system-wide shift, but instead involve a limited number of species. Our study emphasizes the importance of community-wide analysis on marine regime shifts and introduces a novel approach to examine food webs.

scholarly journals Marine regime shifts: drivers and impacts on ecosystems services

2015 ◽  
Vol 370 (1659) ◽  
pp. 20130273 ◽  
Author(s):  
J. Rocha ◽  
J. Yletyinen ◽  
R. Biggs ◽  
T. Blenckner ◽  
G. Peterson
Keyword(s):  
Food Production ◽  
Scientific Literature ◽  
Marine Ecosystems ◽  
High Impact ◽  
Regime Shifts ◽  
Coastal Development ◽  
Random Pattern ◽  
The World ◽  
Managerial Strategies ◽  
Anthropogenic Global Change

Marine ecosystems can experience regime shifts, in which they shift from being organized around one set of mutually reinforcing structures and processes to another. Anthropogenic global change has broadly increased a wide variety of processes that can drive regime shifts. To assess the vulnerability of marine ecosystems to such shifts and their potential consequences, we reviewed the scientific literature for 13 types of marine regime shifts and used networks to conduct an analysis of co-occurrence of drivers and ecosystem service impacts. We found that regime shifts are caused by multiple drivers and have multiple consequences that co-occur in a non-random pattern. Drivers related to food production, climate change and coastal development are the most common co-occurring causes of regime shifts, while cultural services, biodiversity and primary production are the most common cluster of ecosystem services affected. These clusters prioritize sets of drivers for management and highlight the need for coordinated actions across multiple drivers and scales to reduce the risk of marine regime shifts. Managerial strategies are likely to fail if they only address well-understood or data-rich variables, and international cooperation and polycentric institutions will be critical to implement and coordinate action across the scales at which different drivers operate. By better understanding these underlying patterns, we hope to inform the development of managerial strategies to reduce the risk of high-impact marine regime shifts, especially for areas of the world where data are not available or monitoring programmes are not in place.

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