Abstract
Understanding what determines species co-occurrence and its consequences for ecosystem functioning is central to the study of plant ecology. The ecological similarity of species can explain co-occurrence patterns, species interactions, and how species affect ecosystem processes. A useful approach to answer these questions is to group similar species in functional groups and then perform removal experiments. Here, we conducted a scientometric review of articles about plant functional diversity and plant functional group removal. We identified publication patterns and impact; environmental and geographic gaps; ecological effects being tested; which groups are removed; and what the removal methods are. We analyzed articles published between 1991 and 2012 in journals indexed for the Thomson ISI Web of Science database. Although the number of articles and citations of experimental articles increased during that period, the corresponding increase for functional diversity articles was 12 times greater. This might be because field and cafeteria experiments are harder to conduct. Most studies were performed in temperate regions, where taxonomic knowledge and scientific investment is greater. Studies on herbaceous vegetation predominate, probably because short-lived species are more easily removed and manipulated than are trees. The main reason for the removal experiments was to test hypotheses related to competition, and clipping at ground level was the most common removal method. Few studies were performed in the field and in greenhouses, which could control for differential responses of natural conditions and controlled environments.
Highlights
One of the main challenges in community ecology is to understand which mechanisms explain species cooccurrence patterns and how they affect the functioning of ecosystems (Pokorny et al 2005; Sutherland et al 2013)
We found a significant difference between plant functional diversity (PFD) and plant functional group (PFG) removal articles in terms of the slopes (F = 358.1; p = 0.001)
Between 1991 and 2012, seven reviews about PFD and four articles about PFG removal were published in “Trends in Ecology Evolution”, which is the journal with the highest mean impact factor (16.981) over the past five years in the field of ecology (Thomson Reuters 2011)
Summary
One of the main challenges in community ecology is to understand which mechanisms explain species cooccurrence patterns and how they affect the functioning of ecosystems (Pokorny et al 2005; Sutherland et al 2013). Ecologists have been trying to answer those questions through approaches considering species ecological similarities (Lindeman 1942; Weiher & Keddy 1995; Sheley & James 2010; McLaren & Turkington 2010b; Kong et al 2011). Such studies consider that species traits (Symstad 2000; Gundale et al 2012; Picard et al 2012) mediate interactions among them (competition and facilitation) and must be capable of elucidating co-occurrence patterns (Choler et al 2001; Paula & Ojeda 2006; Montgomery et al 2010). Some species can perform similar roles in important ecosystem processes (redundant species), so that the loss of some of these species may not be of great concern (Walker 1992; Lawton & Brown 1993), others might present unique traits and be responsible for the greater part of the ecosystem functioning (Lill & Marquis 2003; Crawford et al 2007)
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