Herbaria are natural history museums that preserve collections of millions of specimens that offer a well established distributional model for a large-scale taxon (Nakrem 1996, Suppl. material 1). Traditionally, usage reports for herbaria were developed from handwritten data gathered from the requisite sign-in book common to herbaria. A standard format for these usage reports does not currently exist, because each institution developed a data set deemed useful for their specific needs. Furthermore, data included may vary over time in response to changing emphases or requirements, see for example Utah State University Herbarium Log (Suppl. material 2), or New York Botanical Garden Log (Suppl. material 3). However in recent years, herbaria have taken advantage of web resources for the sharing of information. With the rapid development of geographic information systems and inexpensive imaging technology, websites that used to provide little more than lists of specimens were modified to display distribution maps and specimen images (Gries et al. 2014). Now some herbarium websites provide access to other taxonomic resources such as nomenclatural information, identification tools (Brach and Song 2005, Dallwitz 2000, Hagedorn 2007, Jones 2013, Thiele 1993, Gries et al. 2014) and formal descriptions. Understanding how the tools are being used is crucial to planning educational, financial, and research activities.

The goal of this manuscript is twofold: to provide recommendations for current information managers and developers concerning the user interface and experience; and to provide a picture about the possible directions to take for those in-charge of the creation of information at all levels. Online plant databases can facilitate the democratization of botanical information through their availability, via open information that exceeds the speed of retrieval from a cabinet or bookshelf. Specimens, including type specimens, no longer need to be shipped back and forth across the globe; thereby limiting wear and tear to these important biodiversity objects while eliminating shipping costs. And importantly, all researchers can now share equal access globally, without travel, to a well established model at kingdom level (Stevens 2009, Sanderson et al. 2008).

Understanding how taxonomic resources now provided via the World Wide Web (WWW) are used, represents a new challenge. For this reason, presented here are collected data obtained from contributors using Google Analytics that functioned as a standard report (Fang 2007, Hasan et al. 2009, Kent et al. 2011). The data considered include: a count of sessions, country/city/network of origin, types of devices used, operating systems used, traffic distinctions between search, direct, and social, as well as returning versus new visitors. In this paper we examine Google Analytics (GA) data from several plant & fungal related websites. Documented here is the extent to which websites serving plant biodiversity data are being used. Particularly, changes that might suggest new directions that should be taken to maximize the value of the investment museums and herbaria are making in digitization efforts (Nicholas and Clark 2014, Nicholas and Clark 2013, Nicholas et al. 2013). We wished to address the following questions: are these resources effective at delivering information throughout the world? What is the breakdown of direct versus search traffic, or social; is one more important than the other? What technology are they using? Finally, can we provide a metric that quantifies the amount of botanical work being done online globally on the WWW?

Sites were selected for this study by searching Hyper Text Markup Language (HTML) source code of biodiversity websites for the presence of Google Analytics. After identifying sites of interest, Jones contacted curators, directors, and developers via email or phone. This process led to the inclusion of fifteen sites (Table 1). All calculations are based upon the full calendar year, i.e. 24 hours per day, 365 days per year. * GBIF and ON also feature animal and invertebrate data. Here both are treated with corresponding portions of data holdings concerning plant data respectively at 28% and 87% (G. Hagedorn, pers. comm., July 2014) of their session counts.

A total of four types of GA resources are charted (Fig. 2) across the population. CCH and Jepson was shared via Google Sheets by Baxter with Jones. Additionaly, for the sharing of GA resources, issues arose with institutional gmail accounts often not enabled for sharing of Google additional services, e.g., John-Doe@tigers.lsu.edu fails to share data (an institutional Gmail), while John-Doe@gmail.com (regular Gmail) is successful.

Number of sessions – 17,198,976 sessions from inception (when each organization began tracking) were found across the 15 GA numbers (Table 2, Suppl. material 4).

Stable bounce rates – Bounce is defined as the user visiting the primary page only and then exiting. Bounces are not included across the statistics, as they are treated as zeros. All participants in the study show relatively stable bounce rates. See discussion (Fig. 3).

Operating systems – Revealed five major operating systems: Windows, Macintosh, Linux, iOS, and Android (Figs 4, 5).

Outreach – Each site's traffic favors its country of origin but all nations, territories, and/or commonwealths are represented across the sample (Tables 3, 4).

Mobile growth – Phone & tablet usage is steadily increasing for all resources (Fig. 7).

Device types – The number of different device types has grown exponentially in recent years, from just a few types in 2010 to over 1500 in 2014 (Fig. 9).

Browser Wars – Five web browsers are in a slow-motion-knife-fight for dominance (Fig. 11).

Search, Direct, Referrals, and Social – Traffic types were examined in a one year study (Fig. 6) to reveal that search, direct, and referrals are all significant contributors to traffic. Social remains at less than one percent of all traffic across the sampled websites (see Discussion).

Language – Tropicos demonstrated relatively stable language usage across the user base. With the dominate languages noted being English, Spanish, Brazilian Portuguese, French, German, and Chinese (Fig. 8). ON and Orowiki, both German websites, revealed German as their primary language, as expected.

Returning Visitors Vs. New Visitors – Consistent usage demonstrated a stable regime of returning plant biodiversity data consumers (Fig. 10).

Reinvention and re-purposing of traditional materials have enabled disciplines surrounding plant biodiversity to grow online, as these types of data are ideally suited for the web (Godfray 2002). Herbaria provide a vast array of informational services beyond basic plant preservation to include: nomenclatural resources, literature, identification, requisite glossaries for botanical jargon, and important specimen-derived information. These resources further enable evolutionary and ecological studies that provide an additional advantage of a well-established model found in the kingdom of plants. Differing yet congruent information types make up the whole of web-based botany today, used globally every day (Table 4).

Table 5 is presented in discussion due to its fuzzy nature, as it is a how-many-wheelbarrows-are-pushed approach, which requires extrapolation and the use of one average value from GA. This is achieved by multiplying the number of sessions by the average duration time, yielding a metric for the years of time spent on these sites. This totals over 271 years of user-time over a seven year period (Table 5).

How a session is determined – A session is started after a browser requests a tracked webpage. On each, time spent and page views are recorded via a cookie (on desktops, or 90% of this data). By default, each session will expire after thirty minutes. If the user does not progress to another page, it is recorded as a bounce. For example, a researcher clicks on webpage, and then decides to eat lunch for thirty minutes, without clicking on anything after visiting the site. This would count as a 30 minute session, right? No, because they bounced.

Bounce rate – Bounces are not recorded as sessions since the user did not progress through the site after visiting the first page. For example, the same researcher uses the identical website again after lunch for 30 seconds, does a search for Carex aurea, which returns a results page. This results page further links to data-based specimen images which the researcher importantly clicks on. Three clicks and pages into the site now with a good broadband connection. Immediately upon instantiation of the third page, the researcher gets a phone call that lasts for 30 minutes. Here, due to the progression over three different web pages (two pages would count too), the session counts. And a bonus dwell time of 30 minutes is recorded in the report. While the actual session lasted only ~30 seconds. Nevertheless, total duration of a session remains informative because it allows for comparison, albeit a somewhat blurry picture of what is actually happening due to the lunch problem. So, progression is the key to a session, as those that do not progress do not count. This possibly skews overall results downwards, especially for those serving one-page websites such as blogs or apps.

Did that latest upgrade really do anything? – Additionally, when a user clicks on a directed event (campaign), new informational chains are instantiated. Campaigns are modifications to the JS that reveal supplementary information such as URL parameters that can identify a "web development push". FloraBase is unique in this sample, in that they are modifying their GA JS code to reveal additional parameters with their use. However, it can result in occasional double counting of sessions. This minor discrepancy is trivial when compared to the valuable information that can be gleaned from the data about the change in user behavior after an upgrade.

Bring your own device (B.Y.O.D.) or here comes mobile – 2013 was the first year that over one billion smartphones were shipped worldwide, and during this same time period only 300 million PC's were purchased (https://www.gartner.com/doc/2665319). Not so surprisingly, mobile growth has nearly doubled for the examined projects over the years examined (Center, Pew Research 2014). However, desktops continue to dominate traffic overall and comprise over 90% of all traffic. They are running primarily Microsoft Windows for desktops, while the phone & tablet devices favor iOS products. As stated previously, most of these sites are designed for desktop usage first, and mobile second. The trend now is to design for mobile first, while still delivering to desktops and laptops, by using a responsive framework. Vertnet (Constable et al. 2010) is now delivering content that scales itself to any device size using a framework called Bootstrap (Otto, M. and Thorton, J. 2011), thereby serving all device sizes simultaneously, without appification or a log-in.

Plants aren't social? – Overall, the amount of social media interaction was found to be trivial (Nicholas and Clark 2014), though it is doubling year to year, but with minor values, e.g. 1–2%. Article levels metrics (Neylon and Wu 2009) are unfortunately not available through GA as it is a standalone that does not incorporate other traffic instances. These low values seen in the population may be the result of multiple factors. One being that curators of museums, experts in their fields, tend to be older individuals, as expert-level knowledge requires time to acquire. Based upon one study, curators have an average age of approximately 50 years, while the 75th percentile is at 58 years (American Alliance of Museums and Philip M. Katz 2012) and older individuals do not engage in social media as much as the younger generations (Duggan and Brenner 2013). Plus, this is another hat to wear by those already wearing many hats. One exception was LSU Keys which did an ad hoc experiment on social media over the past year that pushed the social value to double digits. This on-the-fly effort was an attempt to increase the amount of social traffic by posting to Facebook, Twitter, LinkedIn, and Reddit. These posts were less than ten per site over the year and generated a measurable change when viewed across the population (Fig. 2). Social media requires that developers, curators, and parent institutions work to provide a web presence via fresh content to social media sites, e.g., press releases, publications, images. Thereby generating discernible interest and traffic. Another factor is that developers have yet to find novel ways to engage their audience besides just the standard Facebook, Twitter, and Google+ buttons on a landing page. Lastly, institutions might do more to leverage social media, through collaborative efforts of curators and developers with e-marketing professionals versed in the nuances of social media.

What not to do – While canvassing institutions for access to their GA accounts, a few unexpected issues arose concerning the administration of GA accounts:

Many institutions still rely only on server-based tracking. This balloons the data through the inclusion of bots or spiders that constantly scour the web to index pages for search or other not-so-noble reasons. It was recently estimated that over half of all web traffic now is non-human or machine based (http://www.incapsula.com/blog/bot-traffic-report-2013.html) basically rendering those that use this server-log method to be data blind (Clark et al. 2014).

Next-generation of GA? – Upgrading any GA user to Universal GA, requires the replacement of GA codes on all pages being tracked. A relatively new method, that still requires a one-time total code replacement, is the use of Google Tag Manager (GTM) (http://www.google.com/tagmanager/), as the International Plant Names Index (http://www.ipni.org/) is currently doing. GTM uniquely generates a script that permits future changes by functioning as an "analytic tattoo" for a website; thereby allowing for easy updating across all the deployed pages without wholesale replacement of all scripts. The tattooed script remains the same, but the instructions to that script are mutable, allowing for coding on-the-fly, and allowing for rapid experimentation across site(s). Surely, traffic for all biodiversity based web sites would dwarf these figures for plant biodiversity sites alone. Then considering that less than five percent of all collections-based biodiversity information is now online (Ariño 2010), and the coming voluminous biodiversity yet to be discovered and cataloged (Mora et al. 2011​), these numbers will only grow. It will be interesting to observe what happens to our individual and institutional informational models, and the hard technological carrying capacities, as these data come online. Finally, with modifications to the JS code like those accomplished at FloraBase or IPNI, different parameters will be revealed about usability. It will be exciting to see where vision, creativity and innovation drive these capabilities in the future.