Abstract
AbstractEcosystems across the United States are changing in complex ways that are difficult to predict. Coordinated long‐term research and analysis are required to assess how these changes will affect a diverse array of ecosystem services. This paper is part of a series that is a product of a synthesis effort of the U.S. National Science Foundation’s Long Term Ecological Research (LTER) network. This effort revealed that each LTER site had at least one compelling scientific case study about “what their site would look like” in 50 or 100 yr. As the site results were prepared, themes emerged, and the case studies were grouped into separate papers along five themes: state change, connectivity, resilience, time lags, and cascading effects and compiled into this special issue. This paper addresses the time lags theme with five examples from diverse biomes including tundra (Arctic), coastal upwelling (California Current Ecosystem), montane forests (Coweeta), and Everglades freshwater and coastal wetlands (Florida Coastal Everglades) LTER sites. Its objective is to demonstrate the importance of different types of time lags, in different kinds of ecosystems, as drivers of ecosystem structure and function and how these can effectively be addressed with long‐term studies. The concept that slow, interactive, compounded changes can have dramatic effects on ecosystem structure, function, services, and future scenarios is apparent in many systems, but they are difficult to quantify and predict. The case studies presented here illustrate the expanding scope of thinking about time lags within the LTER network and beyond. Specifically, they examine what variables are best indicators of lagged changes in arctic tundra, how progressive ocean warming can have profound effects on zooplankton and phytoplankton in waters off the California coast, how a series of species changes over many decades can affect Eastern deciduous forests, and how infrequent, extreme cold spells and storms can have enduring effects on fish populations and wetland vegetation along the Southeast coast and the Gulf of Mexico. The case studies highlight the need for a diverse set of LTER (and other research networks) sites to sort out the multiple components of time lag effects in ecosystems.
Highlights
It is well recognized that ecosystems across the United States are changing in complex ways that are difficult to predict (Grimm et al 2013)
The U.S National Science Foundation (NSF) funded Long term Ecological Research (LTER) network consists of long-term, site-based research projects aimed at understanding ecological processes in a wide range of ecosystems
Our results indicate that fast responding ecosystem characteristics and fast turnover element pools might not be the best indicators of a response to climate change because they transfer variability in climate into their own response
Summary
It is well recognized that ecosystems across the United States are changing in complex ways that are difficult to predict (Grimm et al 2013). Time lags have been one of the most persistent challenges in ecosystem ecology as their inherent nature greatly complicates attribution of cause and effect Given their temporal dimension, they were one of the main motivators and justification for founding the LTER network (Magnuson 1990). The concept that slow, v www.esajournals.org interactive, compounded changes can have dramatic effects on ecosystem structure, function, services, and futures is apparent in many systems, but difficult to quantify and predict (Groffman et al 2006, Jackson et al 2018), especially with short-term (e.g., three-year) research projects. The LTER network facilitates the emergence of overarching concepts, such as time lags, that address important dynamics and that may complicate the response of ecosystems to changes in the environment.
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