this Frankenstein tree it’s also an interesting piece of art and the work of an agricultural prodigy, Sam Van Aken, an art professor at Syracuse University (USA). Tree It is capable of producing 40 different types of fruit and was created using traditional grafting techniques.
The inventor was assisted by a team of qualified biologists and farmers who contributed their knowledge on grafting shoots from different plants. One of the most striking aspects of the tree is, tree color and aroma vary depending on the growing season of each variety.
The common denominator of the basic components is that they are in any case “bone” plants, that is, supported on a trunk or branches.
Until now, twenty Frankenstein specimens have been planted in art museums, university campuses, and private land from the United States. The first stage of preparation brings together about twenty types of fruit, followed by pruning and planting as many varieties as possible.
Van Aken was able to graft different stone fruit plants such as peach, plum, apricot, nectarine and cherry to create a single tree that grows 40 different types of fruit.
Because these stone fruits are very similar in their chromosome structure, Van Aken set out to combine them using a ‘chip grafting’ process. The tree, which blooms in pink, crimson and white tones in the spring, gives various fruits in series throughout the summer.
No complex techniques, chemical components or laboratory experiments were required to realize this artistic project. The procedure is absolutely natural. These magical fruit trees are the children of native trees, heirlooms, and the fruit of ancient times.
The first specimen was planted in an orchard at the Agricultural Experiment Station in New York, which the professor saved when he learned it would be demolished.
“I wanted the tree to interrupt and transform everyday life, and I also wanted to surprise people”It revealed Van Aken. “When the tree unexpectedly blooms in different colors and you observe different types of fruit hanging from the branches, not only does the way you see it change, but the way you are perceived in general,” he told the newspaper ClarÃn. . .
The amazing tree allows to accommodate different combinations, because Van Aken’s project actually covers more than 250 fruit varieties on different trees.. Therefore, the public has the opportunity to see different models of Frankenstein in Arkansas, Kentucky, Maine, Massachusetts, New York, Pennsylvania and New Jersey.
Van Aken’s aim is to manipulate nature to enhance its beauty. This type of undertaking has its conditions: You have to wait years to see if a vaccine bears fruit, and you have to be very careful when working around the growth cycle as well as pruning and strategic areas where the vaccines are placed. from any fruit used
“I see it as a work of art, a research project and a form of conservation.. This sculpture through grafts‘ said Van Aken, whose main goal is now to acquire a hundred fruit trees.
What is an agricultural vaccine and how is it made?
What exactly is a graft? It is the genetic, morphological and anatomical combination of two different plants whose main purpose is to shorten the production period.. Now, why shorten the production time? It means reducing the time a plant begins to produce and is commercially applied to fruit trees with a fruiting period of 2.5 to 5 years.
All fruit trees (apple, peach, banana, mango, avocado, apple, pear, etc.) need time to develop physiologically, bloom and, as a result, start fruit set.
In practice, grafting is the sum of a model (the plant on which it is placed) and a twig (the branch we want to bear fruit). There are several types of grafts. The most used ones are model+double crochet and pattern+sheet. The branch is a branch selected from a healthy plant and the cover is a section with a vegetative bud from a healthy plant. The purpose of this process is to ensure that the plants selected for double crochet and coating are resistant to diseases, viruses, bacteria and pests.
Vaccination process performed only if there is the highest possible genetic affinity. That is, if they are species of the same genus, the percentage of forming cell fusion is higher.
……..
Contact address of the environment department: crizclimatica@prensaiberica.es
Source: Informacion
James Sean is a writer for “Social Bites”. He covers a wide range of topics, bringing the latest news and developments to his readers. With a keen sense of what’s important and a passion for writing, James delivers unique and insightful articles that keep his readers informed and engaged.