Study of the Effects of Polypropylene Tree Shelters and Hydrophilic Polymers on Growth, Survival, Health and Physiological Condition of Pedunculate Oak Seedlings ( L.)

Robert Licht, Tomislav Dubravac, B. Liović, Silvija Šokčević, Ž. Tomašić
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Abstract

This paper presents the results of eight years of scientific research on the effect of polypropylene shelters (Tully tubes) and hydrophilic polymers on growth, survival, health and physiological condition of pedunculate oak seedlings (Quercus robur L.). The experiment was established in 2014 on relative forest soil, on partially forested land in subcompartment 35a, forest management unit Kragujna, which is managed by the Forest Administration Vinkovci, Forest Office Županja. In the autumn of 2014, one-year-old bare-rooted pedunculate oak seedlings were planted as a randomized block design experiment - four blocks with four repetitions. Four types of planting were tested: seedlings without a polypropylene shelter, without the addition of Zeba hydrophilic polymer granules (S variant), seedlings without a polypropylene shelter, with the addition of Zeba hydrophilic polymer granules (SP variant), seedlings with a polypropylene shelter, without the addition of Zeba hydrophilic polymer granules (SS variant), and seedlings with a polypropylene shelter, with the addition of Zeba hydrophilic polymer granules (SSP variant). The experiment was established as a result of considering the long-term problem of difficulties in natural regeneration. Disturbances in natural regeneration are certainly caused by increasing climate changes (floods, long-term droughts, storms, hailstorms, etc.) and other unfavourable biotic and abiotic factors that cause a significant reduction in quantities and/or an almost complete absence of pedunculate oak acorn yield. Due to the aforementioned circumstances, in the very near future we will be forced to resort more often to different forms of artificial forest regeneration, such as regeneration by planting sheltered seedlings that are less exposed to risks and challenges during survival, and which have greater competitiveness in relation to other vegetation on the regeneration surface (higher growth). Nowadays, this method of regeneration is used mostly for filling in places where, for various reasons, natural regeneration has been unsuccessful on several occasions and over a long period of time, and/or where there are great difficulties in carrying out natural regeneration (floods, areas damaged by fires, game damages and competition of weeds). This paper presents the results of scientific research after five periodic measurements, i.e. after the first, second, fifth, sixth and eighth growing season. The results show that even after the eighth growing season, seedlings protected with a polypropylene shelter have greater survival rate and greater height growth than unprotected seedlings. The highest survival rate was found in seedlings protected with a polypropylene shelter, with the addition of Zeba hydrophilic polymer of 82.14% (SSP variant), while unprotected seedlings with the addition of Zeba hydrophilic polymer (SP variant) had the lowest survival rate of 62.63%. The highest growth was recorded on seedlings protected with a polypropylene shelter, with the addition of Zeba hydrophilic polymer (SSP variant) amounting to 202.75 cm, while on average the smallest seedlings were those without polypropylene shelter protection and without the addition of Zeba hydrophilic polymer (S variant), amounting to 129.02 cm.
聚丙烯树棚和亲水性聚合物对截干橡树幼苗的生长、存活、健康和生理状况的影响研究
本文介绍了历时八年的科学研究成果,研究聚丙烯遮蔽物(塔利管)和亲水性聚合物对有梗橡树幼苗(Quercus robur L.)的生长、存活、健康和生理状况的影响。实验于 2014 年在克拉古伊纳(Kragujna)森林管理单位 35a 分区的相对森林土壤上进行,该单位由森林管理局文科夫奇(Vinkovci)和茹潘亚(Županja)森林办事处管理。2014 年秋季,以随机区组设计实验的形式种植了一岁的裸根有梗栎树苗--四个区组,四次重复。实验测试了四种种植类型:不添加泽巴亲水聚合物颗粒的无聚丙烯防护林树苗(S 变种)、添加泽巴亲水聚合物颗粒的无聚丙烯防护林树苗(SP 变种)、不添加泽巴亲水聚合物颗粒的有聚丙烯防护林树苗(SS 变种)和添加泽巴亲水聚合物颗粒的有聚丙烯防护林树苗(SSP 变种)。该实验是考虑到自然再生困难这一长期问题而设立的。气候日益变化(洪水、长期干旱、暴风雨、冰雹等)和其他不利的生物和非生物因素肯定会对自然再生造成干扰,从而导致有梗橡树橡子产量大幅减少和/或几乎完全消失。由于上述情况,在不久的将来,我们将不得不更多地采用不同形式的人工林再生,如通过种植受保护的树苗进行再生,这些树苗在存活过程中面临的风险和挑战较小,与再生面上的其他植被相比具有更强的竞争力(生长速度更高)。目前,这种再生方法主要用于填补由于各种原因自然再生多次和长期失败的地方,和/或进行自然再生有很大困难的地方(洪水、被火灾破坏的地区、野味破坏和杂草竞争)。本文介绍了经过五次定期测量(即经过第一、第二、第五、第六和第八个生长季节)后得出的科学研究结果。结果表明,即使在第八个生长季后,使用聚丙烯防护罩保护的幼苗也比未使用防护罩的幼苗存活率更高,生长高度也更高。使用聚丙烯棚保护的幼苗成活率最高,达到 82.14%(SSP 变体),而未使用聚丙烯棚保护的幼苗成活率最低,只有 62.63%(SP 变体)。用聚丙烯棚保护的秧苗生长速度最快,添加了泽巴亲水聚合物(SSP 变体)的秧苗长到了 202.75 厘米,而没有聚丙烯棚保护和没有添加泽巴亲水聚合物(S 变种)的秧苗平均长到了 129.02 厘米。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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