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Variations of fine root diameter with root order in Manchurian ash and Dahurian larch plantations |
| WANG Xiangrong1, WANG Zhengquan1, GU Jiacun1, MEI Li1, HAN Youzhi2, GUO Dali3 |
| 1.School of Forestry, Northeast Forestry University, Harbin 150040, China; 2.School of Forestry, Shanxi Agricultural University, Taigu 030801, China; 3.Department of Ecology, College of Environmental Science, Peking University, Beijing 100871, China; |
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Abstract Fine root lifespan and turnover play an important role in carbon allocation and nutrient cycling in forest ecosystems. Fine roots are typically defined as less than 1 or 2 mm in diameter. However, when categorizing roots by this diameter size, the position of an individual root on the complex lateral branching pattern has often been ignored, and our knowledge about relationships between branching order and root function thus remains limited. More recently, studies on root survivals found that longevity was remarkably different in the same branching level due to diameter variations. The objectives of this study were: (1) To examine variations of fine root diameter from the first- to fifth-orders in Fraxinus mandshurica Rupr and Larix gmelinii Rupr roots; and (2) To reveal how the season, soil nutrient, and water availability affect root diameter in different branch order in two species. This study was conducted at Maoershan Forest Research Station (45?21´ �45?25´ N, 127?30´ �127?34´ E) owned by Northeast Forestry University in Harbin, northeast China. Both F. mandshurica and L. gmelinii were planted in 1986. In each plantation, fine roots of two species by sampling up to five fine root branch orders three times during the 2003 growing season from two soil depths (i.e., 0 �10 and 10 �20 cm) were obtained. The results showed that average diameters of fine roots were significantly different among the five branch orders. The first-order had the thinner roots and the fifth order had the thickest roots, the diameter increasing regularly with the ascending branch orders in both species. If the diameter of fine roots was defined as being smaller than 0.5 mm, the first three orders of F. mandshurica roots and the first two orders of L. gmelinii roots would be included in the fine root population. The diameter ranges of the fine roots from first-order to fifth-order were 0.15 �0.58, 0.18 �0.70, 0.26 �1.05, 0.36 �1.43, and 0.71 �2.96 mm for F. mandshurica, and 0.17 �0.76, 0.23 �1.02, 0.26 �1.10, 0.38 �1.77, and 0.84 �2.80 mm for L. gmelinii. The average coefficient of variation in first-order roots was less than 10%, second- and third-order was 10 �20%, and fourth- and fifth-order was 20 �30%. Thus, variation in root diameter also increased with the ascending root order. These results suggest that �fine roots �, which are traditionally defined as an arbitrary diameter class (i.e., <2 mm in diameter) may be too large a size class when compared with the finest roots. The finest roots have much shorter lifespan than larger diameter roots; however, the larger roots are still considered a component of the fine root system. Differences in the lifespan between root diameter and root order affect estimates of root turnover. Therefore, based on this study, it has been concluded that both diameter and branch order should be considered in the estimation of root lifespan and turnover.
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Issue Date: 05 March 2007
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