8 research outputs found
The Necessity to Expand the Surface of Protected Areas in Romania
The protected natural areas are those areas where we find the most representative and valuable elements of the natural heritage (heritage). On the Globe there are a multitude of categories, of ranks of protected areas, from nature monuments, to National Parks and Biosphere Reservations, from areas under one hectare to hundreds of thousands of square kilometers. The EU has in the field of nature protection the European Ecological Network Natura 2000; this network consists of more than 26 000 protected sites covering aprox. 20% of the EU's land area. This is the largest, more complex network of environment protection in the world. It provides protection for endangered European species and habitats and, indirectly, contributes to the prosperity of the countries on whose territory it is implemented, through the ecological services provided. In Romania, at the level of 2018, the total protected areas represent about 23.65% of the total area; compared to other European countries, the area of these protected areas should be increased. But beyond the comparison with other countries, the need to increase the area of protected areas lies in the fact that, in the context of climate change on Earth, the only way in the future to safely address their effects is to protect the environment and to reduce as much as possible the anthropic “footprint”
The Conservation of Romania’s Biodiversity, a Fundamental Condition for the Sustainable Development
The concept of “natural capital” of a certain geographical space, of an administrative entityrepresents the network of natural, manmade or even anthropic ecosystems, with the functioning of theanthropic ones being directly or indirectly connected to the first two categories of ecosystems. Thehierarchical components of natural capital are the genetic diversity, the specific diversity and theecosystem diversity. According to the UN, biodiversity is defined as “the variability of the livingorganisms from all sources, including, amongst others, the terrestrial, the marine ecosystems as well asother aquatic ecosystems and of the ecologic complexes they are part of; it includes the diversity withinspecies, “between the species and the ecosystems”. The services provided by ecosystems are essentialto the Human Socio-Economic System. Merely starting with the 90’s, a large interest is gaining shapeat the European and also global level, regarding the biodiversity and the sustainable development.Though, in Romania, there has been a socio-economic interest for the conservation of different issuesof the biologic diversity, things have been neglected in the years of socialism, when the short termeconomic interest used to play the main role. Especially starting with 2007, as Romania reentered theEuropean path, the conservation and the protection of biodiversity has been carried out through thebuilding, at national level, of an area of protected areas including various categories, which has beenintegrated within the one at the level of the EU. The legal framework has been modified to this extend,being in accordance to the one of the EU. Though it is known, at a declarative and legal level, that theareas in a natural or semi-natural regime represent the basis of the socio-economic development of eachadministrative entity, there are also various threats to the biodiversity in many areas of Romania.Considering the fact that Romania enjoys the existence of a unique biodiversity within Europe, both atthe ecosystems’ and species’ level and at the genetic one too, it is clearer that the conservation ofbiodiversity is not only a national, but also a continental interest. Sustainable economic developmentcannot be reached excepting this desire
Hydro Energy Is Really a "Clean" Energy? Ecological Problems Generated by Hydropower Plants
Hydraulic energy is the ability of a physical system (running water, generally speaking river) to perform a mechanical work when flowing from a higher position to a lower position. Thanks to the water circuit in nature, maintained by the Sun's energy, hydraulic energy is a type of renewable energy. This form of energy is utilized through hydropower plants. Some of the hydroelectric plants are very large, such as the Roman-Serbian border Porţile de Fier I (Iron Gates I, in english) (the largest on the Danube) and the Portţile de Fier II (Iron Gates II). Other hydroelectric plants are medium but also very small, such as those installed on the small rivers in the Făgăraş Mountains, such as the rivers Capra, Buda, Topolog etc., some even in the Natura 2000 protected areas; more than 500 micro-hydropower plants after National Geographic. But there is a contradiction: the ecological quality of the rivers must increase, but we also need to increase the percentage of renewable energy. With their negative environmental impact, hydropower plants of any size, does not generate a so "green" energy just as it desires. Solving the discrepancy between the economically and ecologically interests, is the key to sustainable development in the Danube area
Some Aspects of the Impact of Invasive Plants in Romania
In a larger or smaller geographical area, before human activity intervened, the distribution
of plant and animal species is the result of hundreds of millions of years of evolution. Through various
anthropogenic activities, this distribution has been greatly disrupted, introducing intentionally or
unintentionally a number of plant or animal species in geographical areas where they would not have
existed without human intervention. So this ecological balance achieved by nature in millions of years,
in geological times, is threatened and destroyed by man in a very short time, years or at most decades.
There is no single, unanimously accepted definition of invasive species. Most agree that the invasive
species is introduced into a geographical area other than the one from which the species originated and,
as a result, this species finds the conditions to spread at high speed, to the detriment of some native
species, generating ecosystem problems, sometimes very large. Other specialists make a clear
difference in terms of non-native species, calling exotic species, those that are present in new
ecosystems, do not cause disturbances and invasive species, ie species that reach other ecosystems,
cause their dysfunctions. As for invasive plants, they obviously do not have their own mobility and
their invasive appearance is less obvious than in the case of invasive animal species. However, the
effects of these invasive plants are often severe, and are not limited to ecological aspects but, directly
or indirectly, the effects can be even serious at the economic level or in terms of human health. The
Research Institute for Nature and Forest (INBO) and the Center for Ecology and Hydrology (CEH)
have compiled an inventory (DAISIE - Delivering Alien Invasive Species Inventories for Europe)
which currently contains 12104 allogeneic taxa for Europe. This was made possible by an international effort involving more than 300 researchers and funded by European funds. The database is constantly
updated, with over 1650 experts constantly working on this issue. The severity of this phenomenon is
illustrated by the difficult to estimate costs of invasive species, in Europe the accounting of these costs
being earlier, but they are tens of billions of euros annually. By comparison, combating invasive species
costs the United States more than 80 billion euros a year. Romania is no exception, the problem of
invasive plants being a very important aspect with negative implications for the economy and the
quality of human life
Extending the Use of Coal Beyond 2030, a Compromise Solution in the Case of Romania, to Ensure Energy Security
In the current geopolitical context, following the Russian invasion of Ukraine, the energy
consequences are severe for almost all European countries, whether they are EU members or not. A
blind energy policy pursued over the last 20–30 years by most EU countries has led to an over-reliance
on a single source for gas and/or oil: Russia. Moreover, the hasty implementation of measures to shut
down fossil fuel-fired power plants without finding viable alternatives in place has exacerbated this
poisonous dependence on Russian gas sources. As a result, following the new geopolitical framework,
Europe is forced to revert to an old source of energy, coal, at least for a certain period, revise its energy
and environmental policy. Many countries such as Italy, Germany, Poland, the Czech Republic, etc.
have already passed or intend to move to the reopening of coal mines and thermal power plants that use
this source. Poland, which obtains about 75% of its energy from coal, initially set itself the goal of
giving up this resource in 2049, but now this deadline will be “much more” postponed. Germany has
kept its 2030 target for this goal, if all goes well. Considering all this and because Romania is not
independent of the energy viewpoint, we consider that also in this case it is beneficial from the economic
and energy security perspective to keep in operation the coal mines and the thermal power plants that
use this raw material, beyond the horizon of 2050. This can be done by refurbishing mines and thermal
power plants and by implementing efficient management, totally different from what has happened over
the years so far. Only when the so-called clean, “renewable” or other energy sources with a soft
environmental impact can cover the energy deficit can the use of fossil fuels and, especially, coal be
safely abandoned
Use of Plant Species as Pioneers of Colonization in Degraded or Polluted Lands in Romania
The use of certain plant species as pioneers in the colonization of degraded or polluted lands
in Romania has great potential. These resilient species play a crucial role in restoring ecological balance
and promoting sustainable development. Salix alba has proven effective in stabilizing the soil,
preventing the erosion of the soil and the banks of flowing waters and improving water quality. Its
extensive root system helps absorb excess nutrients and contaminants from the soil, thus reducing
pollution levels. Another valuable pioneer plant is Robinia pseudoacacia, which has a high tolerance
to harsh environmental conditions and can thrive in polluted areas. Its nitrogen-fixing properties
contribute to enriching the soil, making it suitable for the growth of other plant species, it has economic
value as a melliferous species and provides habitat for various invertebrate or vertebrate species, thus
supporting biodiversity. In the case of heavily degraded areas, it can be advantageous to use pioneer
herbaceous plants such as Festuca arundinacea, Agropyron repens or leguminous plants. These
herbaceous species have deep root systems that help stabilize the soil, prevent erosion, and increase soil
fertility. Moreover, they can tolerate unfavorable soil conditions, i.e., polluted, compacted soil, soil
with little humus, and harsher, drier microclimates. The concept of using pioneer plant species for land
rehabilitation and restoration can be a cheaper method for ecological reconstruction. By selecting and
implementing the use of these plant species, we can gradually recover degraded lands, restore
biodiversity, and create sustainable ecosystems. However, the success of such initiatives depends on
long-term interdisciplinary planning, monitoring, and management to ensure the desired results,
sometimes taking decades to reach stable, self-sustaining ecosystems. Through their resilience and
ecological benefits, these plants contribute to the revitalization of ecosystems and to the promotion of environmental sustainability, to the economic recovery of lands that would otherwise be useless and
would continue to be a source of pollution