Everything You Always Wanted to Know About the Regulation of Biofabricated Wildlife Products*

(*But Were Afraid to Ask)

The 18th meeting of the Conference of the Parties (CoP18) to the Convention on International Trade in Endangered Species of Wild Fauna and Flora (CITES) looms large this August. Previously scheduled for late May 2019 in Colombo, Sri Lanka, but moved to Geneva, Switzerland over security concerns, CoP18 is of great importance to Pembient. That is because it potentially marks the halfway point in a global struggle over how to regulate certain wildlife products produced through biotechnology, including biofabricated rhino horns. Surprisingly, this struggle has received little attention in the press despite its possible impact on a range of medicines and materials. Additionally, the broader biotechnology industry has all but ignored it.

Before continuing, however, it might be useful to review CITES and what is at stake. CITES is an international treaty designed to protect wild plants and animals from over-exploitation. It has been in force since 1975. Almost every country in the world is a party to CITES, and each signatory agrees to pass legislation to implement CITES directives. The result is that rulings made under the auspices of CITES effectively become the law everywhere. Some view CITES as an efficient way to limit and, in extreme cases, halt the trade in endangered species. Others believe it disempowers people, especially indigenous communities, and prevents the development of specialized or localized responses to specific conservation dilemmas.

Approximately every three years, the parties to CITES gather at a Conference of the Parties (e.g., CoP18). Qualified observers, such as activists, academic institutions, and private sector entities, attend too. Together, they discuss possible changes to CITES in the form of amendments, resolutions, and decisions; although, the parties, and only the parties, actually vote on which ones to adopt. Of the changes under consideration, amendments are the most significant as they usually list a species to one of the treaty's appendices, thus granting it legal protection. Resolutions, alternatively, are aimed at lastingly improving the scope and effectiveness of CITES. Decisions are similar to resolutions, but shorter in duration. The conclusion of a Conference of Parties kicks off a cycle of interim meetings, eventually culminating in another CoP. These interim meetings include meetings of the Animals Committee (e.g., AC29), a group of scientific experts, and the Standing Committee (e.g., SC69), a group of policy experts. The CITES Secretariat, a permanent administrative office based out of Geneva, Switzerland, coordinates all of the above activities.

When a species becomes CITES-listed, any trade restrictions thereby secured apply not only to live animals but also to carcasses and readily recognizable parts or derivatives thereof. With Resolution Conf. 9.6 (Rev. CoP16), the term "readily recognizable part or derivative" has been expanded to "include any specimen which appears from an accompanying document, the packaging or a mark or label, or from any other circumstances, to be a part or derivative." Interestingly, the same resolution implies that urine and feces are not parts or derivatives as long as they are "naturally excreted." The unstated assumption being that these waste products would be parts or derivatives if they were somehow invasively extracted. In this context, it is unclear whether a biofabricated rhino horn, appropriately labeled, should be considered to be derived from a rhinoceros. The final determination, just as in the case of waste products, may depend entirely upon its production method.

Background

The notion that CITES might cover certain bioengineered wildlife products first arose during CoP12 in Santiago, Chile in 2002. It was then that Switzerland, on behalf of the Standing Committee, proposed to exempt synthetically produced drugs and DNA, along with urine and feces, from CITES. That effort, and a subsequent one at CoP13 in Bangkok, Thailand in 2004, floundered. The issue reentered the spotlight in 2015 when Pembient announced its intentions to biofabricate rhino horns. Shortly after that, as chronicled below, a new policy cycle began.

CoP17, Johannesburg (South Africa), September 2016

Going into CoP17, the United States circulated a document prepared by the International Environmental Law Project (IELP) and endorsed by several activists. The authors of this document argued that CITES already covered trade in bioengineered wildlife products. More specifically, they interpreted the term "readily recognizable part or derivative" broadly. For them, the totality of the circumstances determined whether a product qualified as a specimen of a CITES-listed species. Or, in other words, what mattered was the form of the product, not its production method. Nonetheless, the authors sought to revise Resolution Conf. 9.6 (Rev. CoP16) to include any products that scientifically tested to be specimens of CITES-listed species, even if their physical components did not originate from an actual plant or animal. Fortunately, cooler heads prevailed, and the Conference of Parties adopted Decisions 17.89 to 17.91 on "specimens produced from synthetic or cultured DNA." The gist of these decisions was that the Secretariat and the various committees of CITES would further review the issue with the aim of making recommendations for consideration at CoP18 in 2019.

AC29, Geneva (Switzerland), July 2017

The 29th meeting of the Animals Committee focused, among other things, on finalizing the terms of reference for a study on "wildlife products produced from synthetic or cultured DNA." The task fell to an in-session drafting group whose membership consisted of the United States, Canada, Mexico, South Africa, and a representative of Europe. What was decided was that the study would have three parts. The first part would describe ways of artificially producing DNA and wildlife products. The second part would explore regulatory options for bioengineered wildlife products, with an emphasis on operationalizing the terms "parts" and "derivatives" in Resolution Conf. 9.6 (Rev. CoP16). Finally, the third part would discuss anti-counterfeiting measures for the detection of bioengineered wildlife products and related technical matters. The Secretariat committed to hiring a consultant to conduct the study using $20,000 donated by the United States.

SC69, Geneva (Switzerland), November 2017

During the 69th meeting of the Standing Committee, an intersessional working group on "synthetic or cultured DNA" was established. This group's purpose was to review the consultant's report, once available, and formulate recommendations. Austria, Cameroon, Canada, China, Israel, Peru, Republic of Korea, South Africa, Switzerland, the United Kingdom, and the United States joined the working group, and Mexico became its chair. A slew of activists also joined, chief among them the IELP and its clients: the Center for Biological Diversity and the World Wildlife Fund.

AC30, Geneva (Switzerland), July 2018

By the time of the 30th meeting of the Animals Committee, the Secretariat had hired a consultant, Dr. Julian Kinderlerer, an esteemed law professor. He presented a partially completed report at the meeting. This draft fulfilled most of the study's terms of reference, except it omitted the second part concerning regulatory options.

Unfortunately, his report was not well received. Some felt it was overly broad and needlessly detailed. They did not understand the necessity of reviewing technologies ranging from DNA synthesis to cell culture to tissue engineering. Nor did they grasp the salient differences between production methods and how those differences could have regulatory ramifications. Others expressed concern that the draft mentioned potential positive impacts of bioengineering wildlife products despite activists' misgivings. Regardless, there was a consensus that nothing should be done pending the completion of the full report—ostensibly pushing the specter of regulation off until CoP19 in 2022.

One critical thing that the draft brought to the fore was that the term "cultured DNA" was nonstandard. This realization resulted in a formal change of title for the subject matter from "specimens produced from synthetic or cultured DNA" to "specimens produced through biotechnology."

SC70, Sochi (Russia), October 2018

Dr. Kinderlerer submitted his full report to the intersessional working group prior to the start of the 70th meeting of the Standing Committee. Nevertheless, even with the inclusion of a section on regulatory options, many concluded that the study did not provide sufficient direction to help the working group advance. So, at the opening of SC70, there was still a need to find agreement on whether and how to regulate bioengineered wildlife products linked to CITES-listed species.

Two lines of thought emerged. Activists, concerned that bioengineered wildlife products could reach the market before CoP19 in 2022, urged the immediate application of Resolution Conf. 9.6 (Rev. CoP16). Various policymakers, on the other hand, expressed concern that the term "readily recognizable part or derivative" used in Resolution Conf. 9.6 (Rev. CoP16) had become antiquated and needed modernization.

The Chair of the Standing Committee convened an in-session working group to address these issues and forge a way forward. Four countries and four organizations formed this working group. The countries were Mexico, France, Norway, and the United States. The organizations were the IELP and the Center for Biological Diversity, as per usual, along with China Wildlife and San Deigo Zoo Global. A set of four recommendation came out of the deliberations, the first three of which either affirmed the immediate applicability of Resolution Conf. 9.6 (Rev. CoP16) or explicitly broadened it. Fortunately, the European Union, not always perceived as a friend of biotechnology, blocked the first three recommendations on technical grounds:

 
 

This outcome all but guaranteed that nothing of permanence would happen at CoP18, and that debate on the topic would continue at least up to CoP19.

Coda

Perhaps the most enduring takeaway from Dr. Kinderlerer's study is that there are three possible regulatory scenarios for a wildlife product produced through biotechnology. In the first scenario, the product is treated as if harvested from a member of a CITES-listed species. For biofabricated rhino horn, this scenario is tantamount to prohibition since CITES affords maximum protection to all rhino species. In the second scenario, the product is treated as a novel substance and is freely tradable. This scenario is the laissez-faire case. The third and final scenario involves treating the product as being related to, but not the same as, a product harvested from a member of a CITES-listed species. In this scenario, international trade in the bioengineered product could be allowed, but only if it did not negatively impact the survival of the species in the wild. Dealings would require CITES permits containing a new source code indicating the product came from a biotechnological process as opposed to an animal in the wild or captivity.

Of course, things are more complicated than that. CITES deals in "parts," defined as objects coming from an animal (e.g., skin), and "derivatives," identified as any processed part of an animal (e.g., watch strap). These definitions place products produced through specific biotechnological processes firmly within the purview of CITES. For instance, a biofabricated rhino horn grown from a biopsy is a derivative in the context of CITES, although one hopes Dr. Kinderlerer's third scenario would govern it. Beyond that lies a realm in which CITES loses applicability.

In the limit, suppose water could be squeezed from rhinos, filtered, and traded. Moreover, assume this "rhino water" was indistinguishable from bottled water or, at the very least, not "readily recognizable" as coming from a rhino. Could CITES intervene here? If so, would the trade in bottled water be banned following the logic of Dr. Kinderlerer's first scenario? Or, would bottled water now require CITES permits attesting to its origin in line with Dr. Kinderlerer's third scenario? Or, again, would a chemical marker have to be added to non-rhino water to make it distinguishable from rhino water?

Somewhere between the above two extremes, a line must be drawn. Thankfully, the United States government has provided a workable delineation in its domestic regulations on wildlife. According to a memorandum from the U.S. Fish and Wildlife Service (USFWS), Chinese Hamster Ovary (CHO) cells are wildlife parts; however, this designation does not extend to bioengineered products extracted from them. That is, synthetic DNAs inserted into CHO cells, and any recombinant proteins produced from said DNAs, are not wildlife products. Intuitively, the USFWS's ruling makes sense. If there is a clear break in the chain of physical descent from a wild animal, or if that link never existed in the first place, why would the USFWS have jurisdiction? The ruling also comports with real-world practice. The USFWS does not regulate digital DNA sequences. Nor does it regulate biomolecules directly or indirectly synthesized from digital DNA sequences.

There are serious consequences should CITES attempt to override the USFWS's precedent. Take the case of squalene, a moisturizer, for example. Shark liver oil contains squalene, and sharks have traditionally been a major source of this chemical. Now that several species of shark are CITES-listed, a couple of companies have started to manufacture either squalene or squalane, its hydrogenated cousin. One company uses genetically modified yeast. Another employs genetically modified tobacco. The upshot is that, given a sample, there is no way to determine its origin, except maybe via an expensive isotopic analysis. The instant CITES covers bioengineered wildlife products, producers of synthetic squalene and squalane will face an uncertain future. They may have to choose between denaturing their products or obtaining export permits for them. Further, it is not clear how far down the cosmetics supply chain permitting would have to extend. Conceivably, their products could even be banned.

Squalene is just one example. If CITES redraws the regulatory line, it subjects a host of substance to new controls. Of these substances, allopathic ones are the most worrisome. Patients, doctors, and pharmacists may find that the synthetic form of ursodeoxycholic acid (UDCA), the active ingredient in bear bile, is less readily available for the treatment of gallstones. Likewise, biotechs may disinvest from synthesizing Factor C, an endotoxin-detecting agent found in the blood of the vulnerable horseshoe crab, lest the species gets listed. From cosmetics and drugs to foods, flavors, and fragrances, CITES seems poised for a massive expansion. Overreaching could lead to disaffected parties invoking the doctrine of rebus sic stantibus. That is to say, CITES could become unenforceable because the parties never intended for an international wildlife treaty to regulate the development of biotechnology.

If the parties want to modify CITES radically, they should first amend it to cover the captive breeding of animals and the artificial propagation of plants. Yet, the parties struggle to address these modalities even though the drafters of the treaty foresaw them. Therefore, rather than attempt to address biotechnology via Resolution Conf. 9.6 (Rev. CoP16), it would behoove the parties to take their time to develop a coherent framework governing all alternative means of production. The broader biotechnology industry must stand ready to assist them in this endeavor.

Rhino Poaching Stats 101

South Africa usually releases reports on the management of its rhinos biannually. Conservationists eagerly anticipate these reports for two reasons. First, they contain many vital statistics, including, often, the number of rhinos poached during the reporting period. Second, the majority of African rhinos, some 80%, reside within South Africa's borders; thus, as South Africa goes, so goes the species. Since Pembient wants to supplant the trade in rhino horns, we, too, take an interest in these reports.

A recent report covers the period from January 1st to December 31st, 2018, and it contains good news: the number of rhinos poached has decreased from 1,028 in 2017 to 769 in 2018. That works out to a 25% year-over-year decline in poaching and represents the continuation of an ongoing trend. An epidemiologist, though, would worry that poaching has decreased because there are fewer rhinos around to poach. She would like to see incidence rates, which take into account population size and time at risk. That is, there is a big difference between, say, 200 animals being poached out of a population of 1,000 throughout half a year versus the same amount being poached out of 10,000 throughout a full year. In order to compute incidence rates, more data are needed than available in a single report; hence, Table 1.

Table 1. Collected Rhino Poaching Data for South Africa
$$ \begin{array}{cccc} \hline \text{Year} & \begin{array}{c} \text{Days} \\ \text{Observed} \end{array} & \begin{array}{c} \text{Number} \\ \text{Poached} \end{array} & \begin{array}{c} \text{Population} \\ \text{Size} \end{array} \\ \hline 2007 & 365 & 13^{a} & 17761^{e} \\ 2008 & 366 & 83^{a} & - \\ 2009 & 365 & 122^{a} & - \\ 2010 & 365 & 333^{a} & 20711^{e} \\ 2011 & 365 & 448^{a} & - \\ 2012 & 366 & 668^{a} & 21001^{e} \\ 2013 & 365 & 1004^{a} & - \\ 2014 & 365 & 1215^{a} & - \\ 2015 & 365 & 1175^{a} & 20306^{a} \\ 2016 & 366 & 1054^{b} & - \\ 2017 & 365 & 1028^{c} & - \\ 2018 & 365 & 769^{d} & - \\ \hline \end{array} $$
a CITES CoP17 Doc. 68, Annex 5.
b DEA Press Release (27 February 2017).
c DEA Press Release (25 January 2018).
d DEA Press Release (13 February 2019).
e DOI: 10.12774/eod_hd078.oct2013.standley.

From looking at Table 1, it is obvious why incidence rates are seldom computed. Namely, there are a lot of missing values for population size. The reason for the missing data is that rhino censuses are costly, and therefore done sporadically. Even when figures are obtainable, they are, at best, estimates or compiled from multiple surveys. Fortunately, Kruger National Park (KNP), where much of South Africa’s rhinos dwell, has begun to regularly publish population estimates for the species it harbors (i.e., black rhino and white rhino). Table 2 shows these estimates.

Table 2. Collected Rhino Population Estimates for KNP
$$ \begin{array}{ccc} \hline \text{Year} & \text{Black Rhino} & \text{White Rhino} \\ \begin{array}{c} \\ \hline 2011^{a} \\ 2012^{a} \\ 2013^{a} \\ 2014^{a} \\ 2015^{a} \\ 2016^{b} \\ 2017^{c} \end{array} & \begin{array}{cc} \hline \text{Lower Limit} & \text{Upper Limit} \\ \hline 400 & 620 \\ 328 & 597 \\ 343 & 487 \\ 249 & 371 \\ 313 & 453 \\ 349 & 465 \\ 427 & 586 \end{array} & \begin{array}{cc} \hline \text{Lower Limit} & \text{Upper Limit} \\ \hline 8767 & 12682 \\ 8500 & 12900 \\ 8394 & 9564 \\ 8001 & 9290 \\ 8365 & 9337 \\ 6649 & 7830 \\ 4759 & 5532 \end{array} \\\hline \end{array} $$
a DOI: 10.4102/koedoe.v59i1.1392.
b DEA Press Release (27 February 2017).
c DEA Press Release (21 September 2018).

Each pair of upper and lower limits in Table 2 forms a confidence interval that should bound the true population size of the given species at the given time. Confidence intervals are constructive, but for this exercise, point estimates are needed. They can be computed using the formula below:

$$ \textit{Point Estimate} = \frac{\textit{Lower Limit} + \textit{Upper Limit}}{2} $$

The results are shown, per species, in Table 3, along with population estimates for the entire South African National Parks (SANP) system, including KNP. Additionally, Table 3 shows how the whole population changes in percentages from year to year. As an aside, it turns out that the confidence intervals in Table 2 are empirical, not analytical. Nevertheless, limited calculations indicate that the mean absolute errors of the point estimates for black and white species are less than 3 and 75 rhinos, respectively. These relatively small errors support the use of the aforementioned formula.

Table 3. Breakdown of Rhino Population Estimates for SANP
$$ \begin{array}{cccccr} \hline \text{Year} & \text{KNP Black} & \text{KNP White} & \text{Other} & \text{Total} & \text{Change (YoY)} \\ \hline 2011 & 510 & 10725 & 226^{a} & 11461 & \\ 2012 & 463 & 10700 & 293^{a} & 11456 & -0.04\% \\ 2013 & 415 & 8979 & 354^{a} & 9748 & -14.91\% \\ 2014 & 310 & 8646 & 398^{a} & 9354 & -4.04\% \\ 2015 & 383 & 8851 & 489^{a} & 9723 & 3.94\% \\ 2016 & 407 & 7240 & 501^{b} & 8148 & -16.20\% \\ 2017 & 507 & 5146 & 512^{c} & 6165 & -24.34\% \\ \hline \end{array} $$
a DOI: 10.4102/koedoe.v59i1.1392.
b Interpolated value.
c DEA Press Release (21 September 2018).

Assuming the percentage changes in Table 3 are suggestive of the overall trends in South Africa's rhino population, they can be used to reconstruct said trends. More specifically, given the number of rhinos observed in 2012 and 2015 (see Table 1), a cubic equation based on the percentage changes over the intervening years can be written:

$$ 21001(1 + \alpha(-0.1491))(1 + \alpha(-0.0404))(1 + \alpha(0.0394)) = 20306 $$

Here, \(\alpha\) is a smoothing parameter. Solving for it gives \(\alpha = 0.220029\). The diminution of the percentage changes induced by \(\alpha\) is reasonable, especially since roughly half of South Africa's rhinos belong to SANP and the remainder are in private or provincial hands. In other words, SANP should dominate the overall trends, and those trends should generally be slightly downwards due, in part, to a drought affecting KNP's white rhinos.

Imputing values for the population estimates of Table 1 using the percentage changes of Table 3 smoothed by \(\alpha\) produces Table 4.

Table 4. Partially Imputed Rhino Population Estimates for South Africa
$$ \begin{array}{cc} \hline \text{Year} & \begin{array}{c} \text{Population} \\ \text{Size} \end{array} \\ \hline 2007 & 17761 \\ 2008 & - \\ 2009 & - \\ 2010 & 20711 \\ 2011 & - \\ 2012 & 21001 \\ 2013 & 20312 \\ 2014 & 20131 \\ 2015 & 20306 \\ 2016 & 19582 \\ 2017 & 18533 \\ 2018 & - \\ \hline \end{array} $$

Two techniques must be used to handle the remaining missing values in Table 4. One, called interpolation, estimates values between existing data points. The other, called extrapolation, estimates values beyond existing data points. The Wolfram programming language's time series processing functions can do both. The necessary code is shown in Listing 1.

Listing 1. Wolfram Language Code for Interpolation and Extrapolation 
popsize = TimeSeries[
  {{2007, 17761}, {2010, 20711}, {2012, 21001}, {2013, 20312},
  {2014, 20131}, {2015, 20306}, {2016, 19582}, {2017, 18533}}]
model = TimeSeriesModelFit[
  TimeSeriesResample[popsize, 1,
    ResamplingMethod -> {"Interpolation",
                         InterpolationOrder -> 2}]]
fig1 = Show[
  ListLinePlot[
    {model["TemporalData"], TimeSeriesForecast[model, {8}]},
    Frame -> {{True, False}, {True, False}},
    FrameLabel -> {"Year", "Population Size"}],
  ListPlot[popsize, PlotStyle -> {PointSize[Medium], Black}]]

Running the code in Listing 1 generates Fig. 1, wherein all the population estimates are visualized.

Fig. 1. Rhino Population Estimates for South Africa over TimeThe blue line traces through interpolated values, and the gold line traces through extrapolated values. Black dots denote data from Table 4.

Fig. 1. Rhino Population Estimates for South Africa over Time

The blue line traces through interpolated values, and the gold line traces through extrapolated values. Black dots denote data from Table 4.

Although Fig. 1 looks scary, it is important to understand that the extrapolation is based only on previous population estimates. It does not take into account biological growth rates, poaching effort, catchability, and the like. Consequently, the further it extends into the future, the less validity it has. The focus, then, should be on the three interpolated population estimates and the first extrapolated one. Taken together with the population estimates in Table 4, they provide enough information to determine an incidence rate for each year in Table 1.

For this article, incidence rate or, technically, average daily crude poaching rate (CPR) per 20,000 rhinos, is defined as follows:

$$ \textit{Average Daily CPR} = \frac{\textit{Number Poached}}{\textit{Days Observed} \times \textit{Population Size}} \times 20000 $$

It can be thought of as a way of fixing the rhino population at 20,000 rhinos, allowing a meaningful comparison of the average number of rhinos poached per day between years. Table 5 consolidates all the observations and estimates previously discussed and presents the likely incidence rates of poaching over the last dozen years.

Table 5. Revised Rhino Poaching Data for South Africa
$$ \begin{array}{ccccc} \hline \text{Year} & \begin{array}{c} \text{Days} \\ \text{Observed} \end{array} & \begin{array}{c} \text{Number} \\ \text{Poached} \end{array} & \begin{array}{c} \text{Population} \\ \text{Size} \end{array} & \begin{array}{c} \text{Average Daily CPR} \\ \text{(per 20000)} \end{array} \\ \hline 2007 & 365 & 13 & 17761 & 0.04 \\ 2008 & 366 & 83 & 19080 & 0.24 \\ 2009 & 365 & 122 & 20063 & 0.33 \\ 2010 & 365 & 333 & 20711 & 0.88 \\ 2011 & 365 & 448 & 21134 & 1.16 \\ 2012 & 366 & 668 & 21001 & 1.74 \\ 2013 & 365 & 1004 & 20312 & 2.71 \\ 2014 & 365 & 1215 & 20131 & 3.31 \\ 2015 & 365 & 1175 & 20306 & 3.17 \\ 2016 & 366 & 1054 & 19582 & 2.94 \\ 2017 & 365 & 1028 & 18533 & 3.04 \\ 2018 & 365 & 769 & 17221 & 2.45 \\ \hline \end{array} $$

So, has the tide turned on rhino poaching? Plotting the average daily CPR (per 20,000) by year, as in Fig. 2, reveals that poaching has fallen in real terms. It is now at a level not seen since 2012-2013. Moreover, the simple rate of poaching in 2018 is close to two, meaning the oft-quoted conservationist slogan of "three rhinos poached per day" no longer holds.

However, let's not fool ourselves. South Africa has an intentional homicide rate per 100,000 of 34 or so. In comparison, its rhino poaching rate per 100,000 is about 4,465. That means being a rhino in South Africa is approximately 131 times more dangerous than being a human there! Clearly, more needs to be done to tackle the problem.

Fig. 2. Average Daily Crude Poaching Rate (per 20,000 Rhinos) for South Africa over Time

Fig. 2. Average Daily Crude Poaching Rate (per 20,000 Rhinos) for South Africa over Time

Another takeaway is that it is becoming harder to argue that supply-side initiatives, whether in the form of synthetics or non-lethal harvesting, exacerbate rhino poaching. According to Fig. 2, the era of "big" conservation, starting from 2009, when South Africa banned domestic sales of rhino horn, and culminating in a frenzy of awareness-raising campaigns in 2014, coincides with runaway poaching. In contrast, a leveling off overlaps with Pembient's announcement of its intentions to biofabricate horn in 2015 and runs through to the overturning of South Africa's domestic sales ban in 2017 and the granting of 15 permits for the sale of 1,342 rhino horns in 2018.

The precautionary principle states that evidence of harm should prompt policy action, even if cause-and-effect relationships cannot be established. The "big" conservation organizations, such as Humane Society International, increasingly lack the evidence needed to lobby for prohibitions on supply-side approaches to rhino conservation.

Washington State Investigates PembiCoin

It has been a while since my last blog post, and much has transpired.

To recap, The Humane Society of the United States (HSUS) accused Pembient of violating the Washington Animal Trafficking Act in February. This offense allegedly arose from Pembient's presale of biofabricated horn via an Initial Coin Offering (ICO) late last year. In hopes of exonerating Pembient, I met with detectives from the Washington State Department of Fish and Wildlife (DFW) on February 28th. I thought everything was resolved, but as it turned out, I was wrong.

Fast forward to March 27th, when I received a letter from the Washington State Department of Financial Institutions (DFI). The letter expressed a concern that Pembient might have sold unregistered securities in the State of Washington. In other words, there was a new reason to doubt the legality of Pembient's ICO. For those unfamiliar with the seriousness of the situation, the letter helpfully added that the company could face "administrative, civil, and criminal sanctions." It also instructed me to provide a full accounting of the ICO by April 17th. Of course, I immediately complied.

In response, I argued that PembiCoins, the blockchain tokens on offer, should not be considered securities. More specifically, they were not designed to fund Pembient's research and development efforts, but to cover the cost of a pilot run of biofabricated horn. A PembiCoin would allow its holder to take delivery of one gram of the pilot batch in 2022, nothing more, nothing less. The ICO, then, was similar to a product crowdfunding campaign, except Pembient recorded customers' pledges on a public blockchain instead of a private database. Alternatively, it was like buying a ticket to a future event, purchasing an unbuilt condominium unit, or even pre-ordering a Tesla. I concluded by noting that such transactions were not uncommon, nor did they require registration with the DFI.

Meanwhile, I became increasingly concerned that HSUS was behind this latest inquiry. To find out, I submitted a public records request to the DFI. Much to my surprise, it revealed that the Washington State Attorney General's Office (AGO) had triggered the DFI's probe! However, a subsequent records request, this time to the AGO, returned an email containing a copy of the accusations HSUS originally sent to the DFW. Hence, my suspicion was confirmed: HSUS's influence percolated up from the DFW to the AGO on February 22nd and then down to the DFI on March 8th, resulting in two parallel investigations into Pembient - one by the DFW, detailed previously, and the other by the DFI. Even more worrisome was that the author of the aforementioned email, an assistant attorney general, had written that "prosecution of operations like this one [Pembient] will require some carefully thought‐through legal analysis." Why were the authorities trusting the assessments of HSUS, an organization that once settled a $16 million racketeering lawsuit? What if HSUS was intentionally making false and misleading statements about Pembient in contravention of Washington State law (i.e., RCW 9A.76.175)?

Putting aside those questions, I went back to work. Months passed, and Pembient labored under a cloud of uncertainty. During this time, the stigma of being investigated hampered Pembient's ability to raise capital, capital it needed to refine its prototypes and scale up production.

Things finally culminated with the DFI inviting me to an in-person interview, which I scheduled for June 28th. Naturally, I was apprehensive going into the meeting, but it was surprisingly fun. The investigators asked good questions as I took them through the mechanics of PembiCoin. Additionally, we all lamented the imprecision of the term "ICO." Almost three weeks later, on July 17th, the DFI closed its investigation, with no action being taken against Pembient. Ironically, throughout this whole ordeal, there was no evidence of any customer complaints levied against the company.

So, what is the current status of the PembiCoin ICO? It has technically ended and is in a paused state pending the activation of an account at a cryptocurrency exchange. Unfortunately, the exchange that Pembient is working with is experiencing significant delays in verifying accounts due to a backlog of applications. There is a good chance, barring further harassment, that the account will be opened and PembiCoins issued before the one-year anniversary of the completion of the ICO. If you've been waiting to receive PembiCoins, I thank you for your patience.

Humane Society Strikes at Pembient Again

[Welcome to our first blog post! We are excited to start sharing our thoughts about biofabrication with the world. Before we get to today's topic, though, we have a brief update on the PembiCoin ICO that ended October 22, 2017. We are currently waiting for our business account at a reputable cryptocurrency exchange to be activated. Once that happens, we can declare the ICO a success and issue PembiCoins. If you are an ICO participant, we thank you for your patience.]

On February 20th, I received a curious email. It was from a detective with the Washington State Department of Fish and Wildlife (DFW). He was looking to establish a point-of-contact for law enforcement at Pembient. Being CEO, I assumed the responsibility and agreed to a call on the 28th to discuss Pembient's work.

Approximately two hours before the call, I received a new message. Agents from the DFW now wanted to meet in person! Since I didn't have a conference room booked at my office, I quickly arranged to meet them at a local cafe. Did Pembient, I wondered, break the law in its quest to biofabricate, or grow, animal horn? Visions of perp walks danced in my head as I wrote down my lawyer's phone number, left everything else behind, and headed out to the meeting.

But what precipitated these events? I had a hunch that special interests were involved. Back in 2016, The Humane Society of the United States (HSUS) successfully lobbied the U.S. Fish and Wildlife Service (FWS) to deny a permit sought by the Black Rhino Genome Project, a non-commercial effort to map out a black rhinoceros' genetic code. One of the reasons HSUS cited for why the FWS should deny the permit was Pembient's advocacy of the project. HSUS wanted to stop the map from being made so that Pembient couldn't use any knowledge gleaned from it to biofabricate the horn of an endangered species.

Unfortunately, my hunch that outsiders were meddling again was correct. According to a response to a public records request, HSUS and its sister organizations, Humane Society International and Humane Society Legislative Fund, contacted the DFW about Pembient sometime after February 12th. They urged the DFW to take "immediate enforcement action" against Pembient for violations of the Washington Animal Trafficking Act. More specifically, they claimed that Pembient's PembiCoin offering, a crowdsale in which individuals could purchase cryptographic tokens exchangeable for biofabricated horn in the year 2022, was illegal.

A close look at the letter HSUS sent to the DFW reveals an astounding jump to an erroneous conclusion. That is, PembiCoin is repeatedly mischaracterized as an offer for sale of "synthetic rhinoceros horn." However, the PembiCoin offering refers exclusively to "biofabricated horn." As such, PembiCoin should be viewed as an offer for sale of horn made from the most exotic stem cell line legally allowed at the time of production. Pembient might prefer to use rhinoceros stem cells, but if that turns out to be infeasible, it could revert to using cow stem cells. The resulting Cowino™ horn, a portmanteau of "cow horn" and "rhino horn," would be a cylinder of horn with the presently unparalleled solidity and heft of rhinoceros horn, but entirely legal. Unless, of course, HSUS proposes we start regulating beef and other cow parts as wildlife products.

Besides demonstrating a complete misunderstanding of PembiCoin, the letter also brings up two old issues that I've addressed again and again and again in detail. The first is that biofabricated horn will "attract new customers, who would not have otherwise purchased rhinoceros horns, to the market." Moreover, "at least some of these new users will eventually shift their consumption to wild horns since the more expensive wild horns will confer the luxury status that the synthetic horns will not." The second is that "enforcement will be difficult because officials will not have an efficient, practical means of distinguishing between real and synthetic horns." These statements, taken together, are contradictory. If expensive horns are less likely to be fake than cheap horns, law enforcement should concentrate on finding and prosecuting those selling expensive horns. Else, if expensive horns are as equally likely to be fake as cheap horns, buyers are better off purchasing cheap horns, thereby putting downward pressure on all prices. Past a certain price level, it becomes too costly to source any horns from the wild, and the entire market will consist of biofabricated horns.

So, was I arrested? Thankfully, no, I wasn't. The meeting with the DFW agents went well. They asked insightful questions, and I gained a better understanding of their concerns. Further, I renewed my commitment to making sure Pembient operates in the open so it can stay on the right side of the law.

As far as HSUS is concerned, it can make no such assertion. It continues to operate in secrecy, attempting to co-opt law enforcement to further its agenda. One would hope that the organization would be dealing with more pressing issues, including its appalling tolerance of sexual harassment. I wonder what HSUS's donors think. Do they realize that their hard-earned cash is going to a glorified law firm and not to help animals? Does obstructing science and innovation during a time of rampant wildlife poaching sound wise to them? What would they do if they found out that an economist recommends that non-profits should subsidize biofabrication instead of attempting to ban it? I don't know the answers, but I intend to find out.