Monday, 7 October 2019

Green denialism

A couple of years ago I started a small experiment in a small wasteland in my neighbourhood with the intention of checking whether some of the species I often talk about in this blog (the famous "paleoautochtonous" species) were able to adapt to the climate of central Spain. I also tried to plant some species commonly cultivated in the mediterranean coastline to see if it was true that they were unable to survive the supposedly harsh winters of the iberian "meseta". These experiments have already been the subject of an article on this blog (Primer año plantando árboles) and I often report this on my Facebook page. An initiative that I carry out with the enthusiasm of a beginner (which I am, in fact, despite my age) and from which I hope to learn useful things for the realization of a much more ambitious project. Being all the species that I plant very rare species in Spain or in the center of the Peninsula and being the place chosen an urban open space in which there is an abundance of waste of all kinds, I never had any kind of problem of conscience at the time of carrying out this experiment. Until this weekend, I had not thought that planting trees in an open field could be something harmful or punishable. But, as the following threatening comment shows, it seems that some people are opposed to any kind of experimentation:

Are you aware that you plant species catalogued as invasive in the Atlas of the Ministry and that you advertise, photograph and even document it? That this could constitute an environmental crime? It's an interesting way to explore if you don't stop your efforts to consciously and voluntarily alter ecosystems...




Considering any exotic species as "invasive" or "potentially invasive" is a resource often used by biologists who study invasive species to dissuade us from cultivating any non-autochtonous species. This photograph shows what until now was the only Montezuma Cypress existing in the city of Madrid. "Was", of course, because the one I planted in my neighbourhood for the time being looks very healthy.



This comment, which I am not going to refute here, serves me to talk about the surprising drift that many conservationists seem to have taken towards positions that today seem to me indefensible from a merely scientific point of view. First of all, this drift is due to the vocabulary used by the promoters of invasion biology, which has very little scientific basis and leads to dangerous amalgams of concepts. As you probably know, invasion biology started with the publication in 1958 of Charles Elton's book "The Ecology of Invasions by Animals and Plants". Published in the middle of the Cold War, in a decade marked by the release of films such as The War of the Worlds, the use of a militaristic vocabulary with strongly negative connotations to refer to expanding exotic species has marked the entire history of this discipline. From the very beginning, invasion biology focused exclusively on studying the negative impacts of these species, without any interest whatsoever in the fit that these species could have in the natural processes and in the ecosystems in which they burst, particularly in the series of vegetation. As several studies we have already referred to in another article in this blog (Plantas invasoras de hoy y de ayer) have shown, species that are simply opportunistic or colonizing and that would later be replaced by more demanding species are often referred to as "invasive".




The Barbary sheep only owes to the pressure exerted by the hunters not to have been completely exterminated, after having been included in the national list of exotic species against the criteria issued by the biologists who have studied this species and who know it best.



If invasion biology has remained a marginal specialty in Biology as a whole, it has however decisively influenced the ideology of the ecological movement and vampirized significant public funds. To such an extent that its postulates today have a much greater weight than that of the scientists themselves when it comes to legislating. I have already denounced in this blog the unjustified persecution carried out against the Barbary sheep in the SE of Spain (El porvenir truncado del arrui), ignoring the opinion of the specialists who had studied it (1). The invasion biology is, today in Spain, the closest thing to a religion and whoever dares to contradict them is exposed to being attacked in social networks. The comment I have received this weekend is a good example of it and there are plenty of examples such as the Barbary sheep which show that preconception can outweigh evidence. When I heard that there were brigades dedicated to the complete eradication of eucalyptus trees in Galicia in order to re-establish the native forest, I naturally thought that this was an extraordinary loss of time. It makes no sense to start from scratch in a situation like the present one, in which time is crucial. They could perfectly have organized a small excursion to the "Souto da Retorta" to convince themselves that the presence of eucalyptus is not incompatible with the recovery of the native forest (El bosque imposible).




Where some see a land where eucalyptus has been completely eradicated and ready to be repopulated with autochthonous species I see a treeless land exposed to erosion. Couldn't a few eucalyptus trees have been left to protect the soil and the small oak seedlings? Without such protection, the native forest is likely to take much longer to develop. With an enemy like climate change on our heels, we may someday regret not having been more pragmatic and less purist.... / Picture: La Voz de Galicia



Misunderstood conservationism, carried to its ultimate consequences, prevents us today from reacting quickly to a phenomenon such as climate change. Invasion biology has imposed itself in our country as a kind of monolithic truth that very few people dare to question openly. Those who have risked doing so, like David Theorodopoulos almost 17 years ago (2), received sticks everywhere. That American biologist, however, did nothing more than say that it was ridiculous to differentiate species into indigenous and exotic and dedicate time and money to persecute invasive species. To illustrate this fact, this author often gives as an example in his lectures the numerous and surprising changes observed in the faunas in the last millennia. One such example is the horse, born in North America and disappeared from that continent just 6'000 years ago. Today it is considered an invasive species in North America. The same reasoning applies to many other controversial species, such as the tree of heaven for example, which had a holartic distribution in the Tertiary, before being eliminated from much of its area by quaternary glaciations. The conservationists crushed him by accusing him, among other things, of giving too general examples that did not conform to reality. Climate change, however, is clearly demonstrating that the short-sighted and fixist vision that governs our environmental policies has no future. Why, for example, planting Spanish firs exclusively in their very small current distribution area where this species is in danger of disappearing completely due to climate change?




Will ecologists one day accept the idea that in order to save a species like the Spanish fir, it is necessary to plant it in other mountain ranges farther north? / Photo: View of the Spanish fir from the Jardín BotánicoTorre del Vinagre, in the Sierra de Grazalema. / Autor: Consejería de Medio Ambiente y Ordenación del Territorio



The people involved in listing alien species and deciding whether or not they are invasive have lost sight of the scale of the changes we face. If it is already ridiculous to consider some species exotic on the basis of man-made borders and limits, doing so in a world in which the movements of species and ecosystems promise to reach a much larger scale than most of the studied territories gives an idea of how futile such an effort is. I think it is not useless to remind ourselves once again that climate change is not a future reality. Yesterday I was watching a TV programme and I was very struck by an overprinted message which said that by the end of the century Spain was expected to have a temperature rise of around 3 degrees since pre-industrial times. This is a huge mistake that could let people think that climate change is a matter of the future. The reality is that the average temperature in Spain has already risen 3 degrees since pre-industrial times (E pur si riscalda ) and the 3 degrees to which they refer are actually 3 additional degrees. In other words, by the end of the century the average temperature in many regions in Spain will have risen by at least 6 degrees since pre-industrial times. This is enormous and is roughly equivalent to a rise in vegetation of almost 1000 metres.




Twig of a young specimen of Torreya taxifolia planted in Waynesville, North Carolina (USA), outside its "natural" range, where the species is gradually becoming extinct. Thanks to the efforts of the Torreya Guardians, the species is expanding further north into areas that are much more favorable to it. / Photo: Connie Barlow



The possibility of future changes clearly wasn't in the plans of invasion biologists when they developped the theoretical basis of their "science". They are now incurring in contradictions by not admitting that the ecosystems they are trying to preserve are going to undergo major changes. As a consequence of this, many ecologists are becoming climate change deniers because they do not accept the implications this could have on their work. Most conservationists, however, are aware of the reality of climate change but claim, in an attempt to reconcile their ideas with an undeniable reality, that our ecosystems are resilient and will be perfectly capable of "fitting in" with the effects of climate change. Their main argument is that they did so in the past and will continue to do so in the future, without realizing that the conditions towards which we are moving are absolutely unprecedented (Back to Pliocene ). No matter how much we talk about climate change in the media, I fear that as long as we are not able to convince environmentalists that they are going to have to accept the consequences of climate change and come out of that kind of green denialism that many incur, we will not be able to move forward and start taking really useful measures for the future. Climate change, clearly, is rehabilitating David Theorodopoulos idea that invasion biology is a pseudoscience whose theoretical foundations do not resist the embite of reality...



(1) Cassinello J. (2018) / Misconception and mismanagement of invasive species: the paradoxical case of an alien ungulate in Spain / Spain Conservation Letters
(2) David I. Theodoropoulos (2003) / Invasion Biology: Critique of a Pseudoscience / Avvar Books

Monday, 9 September 2019

Paleo-autochtonous species (7): Eucommia




In previous articles, we discovered the thermophilic species that disappeared from the European continent and referred to the existence of different glacial refuges in the south and periphery of the European continent, where a whole series of species that were still present in Europe at the end of the Tertiary era and in the Lower Pleistocene (Quaternary) survived. Unfortunately, not all the species present in Europe at that time had the chance to reach these refuge areas. Many of them disappeared permanently and their close relatives now live in Asia and/or North America. However, a number of these species had a practically holartic or Eurasian distribution area and were fortunate enough to survive outside the European continent. The most famous example is probably the gingko, extremely rare in nature and perhaps saved from possible extinction by the veneration that the Eastern populations professed for this tree.





Less known than ginkgo, but also originally from China, the gutta-percha tree (Eucommia ulmoides) shares a very similar destiny with ginkgo. That species is also, in effect, the only representative of a monotypic family and genus. Like ginkgo, the species is cultivated since time immemorial and its exact origin (natural populations) has not been clearly established. It is a tree with numerous medicinal properties that also has a unique feature among the trees of the cold temperate zones: it secretes latex.

This feature attracted the attention of Westerners at the beginning of the 20th century, who saw in it a possible alternative to rubber of tropical origin. That led to different attempts at acclimatization that were more or less successful. Most of them were soon abandoned when synthetic rubber production developed and it was very difficult to grow this species, from which only male feet were initially obtained. The only country that took the experiment to an advanced stage (production) was the USSR in the 1930s. Some of these experimental plantations still exist (see video below). In other countries, this species is very rare, being able to see only in arboretums and botanical gardens.





Ecology

The gutta-percha tree is capable of living in a wide range of ecological conditions and can be observed in such disparate environments as mixed forests, cleared forests, small forests, low mountains, ridges, valleys, dry ravines and fields (Flora of China). In China, this species has become very rare in the wild and appears dispersed in a relatively large area (see map). Widely cultivated, it has been naturalized in a multitude of places.




Distribution map of Eucommia ulmoides (left) and annual precipitation map of eastern China (right).



As the previous map shows, the species is capable of living in relatively dry areas where rainfall is barely more than 400 mm. One of the most important factors for this species are spring temperatures, Eucommia ulmoides seeds need to germinate at springtime temperatures (April) between 13 and 22 degrees, with the optimal temperature of 18 ° C for germination [1].


Past distribution

The fossils of Eucommia that have been found in Europe in the sediments of the late Pliocene or Quaternary are so similar to the current species that these have usually been attributed to that species. It is likely that other species of this genus were present in earlier times but the current was the only one that managed to reach our days. It managed to survive in southern Europe until the middle Pleistocene and, like many other species that disappeared at that time, it does not seem to have been very good for the intensification and lengthening of the glacial periods in the Upper Pleistocene. It was in the Pliocene and at the beginning of the Pleistocene, a frequent and abundant species in much of Europe and the Iberian Peninsula, where it coexisted with numerous species of deciduous and persistent trees. Given the ecological breadth of this species, it is very likely that it was present in our country in a wide range of ecosystems, both in the Mediterranean and Eurosiberian regions.



The variety of environments in which this species is able to live makes it difficult to know in which types of environments it lived in southern Europe, as the species was probably present at that time in both the Mediterranean and Euro-Siberian regions.


EucommiaFamily: EucommiaceaeOrder: Garryales

Trees deciduous, dioecious. Sapwood and bark containing latex. Buds ovoid; scales deciduous. Leaves alternate, spirally arranged, exstipulate, petiolate; leaf blade simple, usually elliptic, sometimes somewhat ovate, obovate, or oblong, containing latex (forming strands if blade is transversely broken and pulled apart), pinnately veined, base rounded or cuneate-rounded, margin densely serrate with gland-tipped teeth, apex abruptly narrowed into an acuminate tip. Flowers axillary, borne near base of current year’s branchlets, very shortly pedicellate, without perianth, wind pollinated. Male flowers clustered; stamens 5–12, linear; filaments very short; anthers basifixed, 4-locular, dehiscing by longitudinal slits; connective slightly prolonged. Female flowers solitary: ovary stipitate, composed of 2 connate carpels, 1-locular, elongate, compressed, glabrous, apex 2-lobed; stigmas 2, decurrent, reflexed-spreading; ovules 2, collateral, anatropous, 1 aborting. Fruit an indehiscent samara, long elliptic to narrowly oblong, compressed, winged around margin; wing gradually narrowed at base into stipe, shortly 2-lobed at apex with sinus stigmatic; pericarp thinly leathery. Seed 1, linear, compressed, rounded at both ends; testa membranous; endosperm copious; embryo erect, large; cotyledons compressed, fleshy.

Source: Flora of China




It is a species rarely cultivated in our country. There are, as far as I know, two individulas in the Royal Botanical Garden of Madrid (one of them already quite grown up), another one in Barcelona and ... little else. I have not found, in any case, any reference to other specimens in other regions. It is curious, in any case, that this species has not awakened until now the curiosity of our forestry engineers. Of course nobody was aware until recently that this species was so frequent in our forests at that time. We'll see if the little Eucommias I've planted in my neighborhood go ahead. I have planted them in a small area of my neighborhood in which both the exposure and the edaphic conditions vary a lot, with the idea of seeing if that species is able to naturalize in the Mediterranean region, in places where conditions are somewhat more favorable. If the rabbits do not annihilate them and if nobody steals all the protectors that I have put, then maybe I'll tell you good news a few years from now.




Eucommia ulmoides leaf seen against the light. Real Jardín Botánico de Madrid.



Next year, I will try to plant some of them in an area with a more favourable climate (sub-Mediterranean). Elsewhere, as the short video shot in southern Russia (Sochi region) clearly shows, there is no doubt in my mind that this species is capable of growing almost anywhere. If you are aware of his presence in the area where you live, feel free to leave your testimony in the comments in this article.




One of the small 1-year-old percha-gutta trees I planted in my neighbourhood.



(1) Wang Y.-F. et al. (2003) / Eucommia (Eucommiaceae), a potential biothermometer for the reconstruction of paleoenvironments / American Journal of Botany, Vol. 90(1), pp. 1–7.



Green denialism

A couple of years ago I started a small experiment in a small wasteland in my neighbourhood with the intention of checking whether some of t...