Human presence is detrimentally affecting natural environments. Glades are an example of such envi-ronments. As glades diminish in number, proper restoration efforts are essential for the preservation of the habitats’ unique ecosystems, biodiversity and natural processes. To ensure glade survivorship, evaluation of glade restoration efforts is critical. As indicators of the trophic level of producers in a food chain, wildflowers can serve as overall indicators of the restoration process. A comparison of wildflower species presence and abundance between recently restored and control glades offer insights into the restoration progress. In this paper, I propose the us-age of a novel method for assessing restoration effi-cacy. I outline step-by-step how to apply such a method. I then explain how the implementation of such a method can be used to address questions re-garding the restoration effort’s efficacy.
Human population growth has led to deleterious global environmental changes. The degradation of natural environments threatens biodiversity. As a greater number of species move towards extinction, conservation biology and restoration ecology become increasingly important. The two disciplines promote the development of nature reserves and enhance natural environment recovery. Recovery of the natural environment is the only hope for preserving biodiversity. There is an urgent need for scientific advancement in the fields of conservation biology and restoration ecology. Practical restoration efforts must utilize our knowledge of theoretical ecological principals in addition to our developing understanding of empirical restoration ecology [
In this study, I will examine one particularly affected natural environment, the glade. Specifically, I will focus on the Missouri Ozark glade, which is representative of the larger Missouri glade population. As rocky clearings in wooded areas, glades are desert-like island ecosystems, home to many unique, interesting, and sometimes rare species of insects, reptiles, mammals, wildflowers, and grasses. Occurring on southwestward facing slopes, glades are categorized by the vegetation-influencing bedrock that lies beneath the thin soil—the most common type in Missouri is the dolomite glade [
Ozark glades have experienced degradation in a similar pattern to that of their Missouri counterparts. For example, it is believed that 200 years ago 5% of Shaw Nature Reserve’s 2400 acres was covered by glades. As fire suppression regulations took effect the total glade area dwindled to 1% [
The destruction of glade habitats has been attributed to U.S. Forest Service’s fire suppression regulations. Through suppression of naturally-occurring frequent fires, many glades have become overrun by devastating woody vegetation [
To ensure glade restorative methods are effective, we must thoroughly examine the progress of the restored glades themselves. To efficiently examine the progress of restored glades, a sufficient measure of glade health must be examined.
Restoration efforts are frequently geared towards reestablishing the habitat’s natural vegetation infrastructure [
To summarize, the ultimate goal of this study is to propose the usage of a novel, efficient method for determining the efficacy of glade restoration efforts. In this study, I explain how this method can be utilized in further investigations to examine the progress of restored glades. In order to quickly, yet effectively, determine the efficacy of restoration efforts, one needs to utilize readily visible and reliable measures of glade health. In this paper, I put forth the idea of comparing the presence and abundance of wildflowers as the easy yet reliable measure. Given the procedural simplicity, this method promises to be quick and effective for gathering data regarding the health of the land will inevitably serve as an important guide for future land management directions.
Wildflower species presence and abundance should be measured in matched (with respect to type, size, surrounding forestation, and topography) glades. To examine the restoration efficacy, an equal numbers of restored glades should be compared to pristine glades, which are healthy, free of invasive species, and not in need of restoration. These pristine glades will serve as a control. For a more thorough understanding of the whole process, a proper understanding of the restoration history is essential.
A transect sampling technique can be used in both the restored glade and the pristine control glade. The transect technique enables one to take a large random sample of each glades’ wildflower species, thus providing a quantifiable method for examining the recovery of glade wildflowers. To account for the possibility that the burned, restored glade may green up earlier due to absence of overhanging shading effects, one should take equal numbers of samples on both glades’ edges where surrounding forestation is nearly identical.
In each glade, transects can be lined up parallel to the glades’ edges. Using the transect as a guide, a random numbers table can be used to determine the sequential location and alternating distance from the transect the sampling can occur. When a sampling area falls on a non-glade region, the sample area can be taken the same distance from the transect on the opposite side of the line. 2 × 2 meter sample sizes can be taken in each glade. In order to make any comparisons, the sum of sampling area should represent equal portions of the total area of the glades. Wildflower species can be identified on site using a field guide to Ozark wildflowers [
The presence and abundance of different wildflower species should be compared between the pristine and restored glades. Employ the use of an unpaired t-test for statistical analysis.
The random transect sampling method reveals similarities or differences in wildflower species distribution in the pristine vs. the restored glades. Examine the number of species of wildflowers that are present in both the pristine and restored glades. Are there certain species only found in one glade and not in the other? Differences in the number of observed wildflower species between the two glades may serve as another indicator of biodiversity.
Examine the abundance of each species. Abundance levels can serve as indicators of a species’ viability in a certain environment. To best examine abundance differences, compare the number of individuals of the species found on both glades. Are there unexpected differences in species presence and/or abundance?
It could be useful to compare the two glades using an index of biodiversity. One example is the ShannonWiener (or Shannon-Weaver) diversity index. This index combines information on species richness with relative abundance. Such indices consider communities that are approximately evenly divided among nine species to be considered more diverse than communities with nine species in which 95% of individuals are from one dominant species.
Given the urgent need for restoration of natural environments, effective restoration efforts must be utilized. To determine if the efforts are achieving the desired goals, there is a need to assess the efficacy of the restoration efforts. Thus, the purpose of this paper is to propose a novel, efficient measure of assessing the efficacy of glade restoration efforts. By proposing this practical method, I hope to encourage others to implement this strategy to determine if restoration efforts are adequate or are in need of further refinement.
In order to make definitive conclusions about the efficacy of current restoration efforts, sufficiently large sample sizes should be taken. Similarities between pristine and restored glades’ wildflower species presence and abundance can be used as a quick assessment. At one end of the spectrum, the two glade types could be identical. This would suggest that the restoration efforts are returning glades to pristine conditions. At the other end of the spectrum, there could be a huge discrepancy between the two glade types. This finding may suggest that the restored glade may not be on par with the pristine glade with respect to the conditions necessary for proper abundance of all species. Moreover, this may be indicative of a need for improved restoration efforts.
When interpreting the data, there are several additional factors to consider. It is possible, however, that it may take time for wildflower populations to recover— particularly the uncommon species which may have lower numbers of seeds in the seed bank and the perennials which may remain vegetative as they spend the first few years re-establishing their root systems. The establishment of various forbs may lead to root competition which may affect overall composition and robustness of individual plants, as well. As perennial density increases, they may compete with the annuals which may initially faster to recover. Varying, year-to-year weather patterns may factor into how rapidly flowers response occurs too.
Implementation of this novel measure of glade health opens the doors for further, useful research. Such research may address the success of restoration efforts. To better assess restoration effort efficacy, future research could be done on glades in different regions. Sampling could also be done at more than one time during the growing season. Once a more complete picture begins to develop about the actual variety of species present and their relative abundances on the glades, an important next step would to be to examine more closely what each species can tell us about the overall health of the glade. To do this, I suggest comparing the observed glade species to what Baskin and Baskin [
Ultimately, if restoration efforts appear sub-optimal, further examination could focus on other parameters of restoration efficacy (i.e. surveys of other types of flora, fauna, and organism-density), other factors reducing restoration efficacy, or alternative restoration methods. If restoration efforts appear effective, future studies should be conducted to support such findings along with how to further optimize restoration efforts. As glades diminish in number, proper restoration efforts are essential. The preservation of the glades’ unique ecosystems, biodiversity and natural processes is of great importance.