Regulatory effects of root pruning on leaf nutrients, photosynthesis, and growth of trees in a closed-canopy poplar plantation

Da-Wei Jing,Hai-Lin Ma,Zhen-Yu Du,Yu-Feng Dong,Qing-Hua Wang,Fang-Chun Liu,Bing-Yao Ma,Ming-You Wang,Gabriel Agbor

doi:10.1371/journal.pone.0197515

Da-Wei Jing, Hai-Lin Ma + Show 7 more

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https://doi.org/10.1371/journal.pone.0197515

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Journal: PLOS ONE	Publication Date: May 21, 2018
Citations: 12	License type: CC BY 4.0

Affiliation: Shandong Academy of Forestry, Dezhou University

Abstract

A plantation of 5-year-old poplar Populus × euramericana cv. ‘Neva’ was used to study the regulatory effects of root pruning on nutrients, photosynthetic characteristics, and water-use efficiency (WUE) of leaves and growth rates of diameter at breast height (DBH; 1.3 m), tree height, and volume. Six root-pruning treatments were conducted with different combinations of intensity (at a distance of six, eight or ten times DBH from the trunk) and orientation (on two or four sides of the trees). Results showed that the N, P, K, photosynthetic rate, transpiration rate, and stomatal conductance of leaves were all significantly decreased by root pruning over the initial period following root pruning (30 days), but increased in the subsequent investigations. The values of the above indexes peaked in 8–2 treatment (i.e., eight times DBH distance on two sides). The leaf WUE in 8–2 treatment, and average growth rates of DBH, tree height and volume, were the highest among all treatments within 3 years of root pruning. The results indicated that the root pruning based on the appropriate selection of intensity and orientation had significant positive effects on leaf nutrients, photosynthesis, and growth of trees in a closed-canopy poplar plantation.

Highlights

Compared with other tree species, poplar has many characteristics that make it suitable for cultivating in plantations, enabling the production of large quantities of wood in short periods of time
We investigated the effects of root pruning on leaf nutrients, photosynthetic characteristics, water-use efficiency (WUE), and growth of closed-canopy poplars
During late May 2015, 30 days after root pruning, the leaf N, P and K concentrations significantly decreased following root pruning compared with CK, the largest decline occurring in treatments 6–2 and 6–4 followed by 8–2 and 8–4, whereas the smallest decline occurred in the 10–2 and 10–4 treatments

Summary

Introduction

Compared with other tree species, poplar has many characteristics that make it suitable for cultivating in plantations, enabling the production of large quantities of wood in short periods of time. These features consist of rapid growth, adaptability to diverse environmental conditions, and suitability for different silvicultural systems [1,2,3]. Interweaved roots inhibit the growth of poplar, and is beneficial to the spread of pests and diseases, and significantly reduce root vitality during this period [4,5]. How to improve root system vitality in poplar closed-canopy plantations is important for tree growth and, the economic return of such plantations

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