[1] |
Aber JD, Melillo JM, Nadelhoffer KJ, McClaugherty CA, Pastor J (1985). Fine root turnover in forest ecosystems in relation to quantity and form of N availability: a comparison of two methods. Oecologia, 66,317-321.
DOI
URL
PMID
|
[2] |
Bloomfield J, Vogt KA, Wargo PM (1996). Tree root turnover and senescence. In: Waisel Y, Eshel A, Kafkafi U eds. Plant Roots, the Hidden Half 2nd edn. Marcel Dekker Press, New York, 363-381.
|
[3] |
Cheng W, Coleman DC, Box JE (1990). Root dynamics, production and distribution in agroecosystems on the Georgia Piedmont using minirhizotrons. Journal of Applied Ecology, 27,592-604.
|
[4] |
de Deyn GB, Cornelissen JHC, Bardgett RD (2008). Plant functional traits and soil carbon sequestration in contrasting biomes. Ecology Letters, 11,516-531.
|
[5] |
de Kroon H, Visser EJ (2003). Root Ecology. Springer,Germany.
|
[6] |
Gill RA, Jackson RB (2000). Global patterns of root turnover for terrestrial ecosystems. New Phytologist, 147,13-31.
|
[7] |
Grier CC, Vogt KA, Keyes MR, Edmonds RL (1981). Biomass distribution and above- and below-ground production in young and mature Abies amabiliszone ecosystems of the Washington Cascades. Canadian Journal of Forest Research, 11,155-167.
|
[8] |
Guo DL, Mitchell RJ, Hendricks JJ (2004). Fine root branch orders respond differentially to carbon source-sink manipulations in a longleaf pine forest. Oecologia, 140,450-457.
|
[9] |
Guo DL, Li H, Mitchell RJ, Han WX, Hendricks JJ, Fahey TJ, Hendrick RL (2008a). Heterogeneity by root branch order: exploring the discrepancy in root longevity and turnover estimates between minirhizotron and C isotope methods. New Phytologist, 177,443-456.
|
[10] |
Guo DL, Michell RJ, Withington JM, Fan PP, Hendricks JJ (2008b). Endogenous and exogenous controls of root life span, mortality and nitrogen flux in a longleaf pine forest: root branch order predominates. Journal of Ecology, 96,737-745.
DOI
URL
PMID
|
[11] |
Guo DL, Xia MX, Wei X, Chang WJ, Liu Y, Wang ZQ (2008c). Anatomical traits associated with absorption and mycorrhizal colonization are linked to root branch order in twenty-three Chinese temperate tree species. New Phytologist, 180,673-683.
|
[12] |
Harris WF, Kinerson RS, Edwards NT (1977). Comparison of below-ground biomass of natural deciduous forest and loblolly pine plantations. In: Marshall JK ed. The Below-Ground Ecosystem: a Synthesis of Plant-Associated Processes. Fort Collins Press, 29-37.
|
[13] |
He JS (贺金生), Wang ZQ (王政权), Fang JY (方精云) (2004). Underground ecology with global changes: problems and prospects. Chinese Science Bulletin(科学通报), 49,1226-1233. (in Chinese)
|
[14] |
Hendrick RL, Pregitzer KS (1993). Patterns of fine root mortality in two sugar maple forests. Nature, 361,59-61.
|
[15] |
Jackson RB, Mooney HA, Schulze ED (1997). A global budget for fine root biomass, surface area, and nutrient contents. Proceedings of the National Academy of Sciences of the United States of America, 94,7362-7366.
DOI
URL
PMID
|
[16] |
Langley JA, Hungate BA (2003). Mycorrhizal controls on belowground litter quality. Ecology, 84,2302-2312.
|
[17] |
Nadelhoffer KJ (2000). The potential effects of nitrogen deposition on fine root production in forest ecosystems. New Phytologist, 147,131-139.
|
[18] |
Norby RJ, Jackson RB (2000). Root dynamics and global change: seeking an ecosystem perspective. New Phytologist, 147,3-12.
|
[19] |
Norby RJ, Ledford J, Reilly CD, Miller NE, O’neill EG (2004). Fine-root production dominates response of a deciduous forest to atmospheric CO 2 enrichment. Proceedings of the National Academy of Sciences of the United States of America, 101,9689-9693.
URL
PMID
|
[20] |
Persson H (1979). Fine root production, mortality and decomposition in forest ecosystems. Vegetation, 42,101-109.
|
[21] |
Pregitzer KS, Deforest JL, Burton AJ, Allen ME, Ruess RW, Hendrick RL (2002). Fine root architecture of nine North American trees. Ecological Monographs, 72,293-309.
|
[22] |
Pregitzer KS, Kubiske ME, Yu CK, Hendrick RL (1997). Relationships among root branch order, carbon, and nitrogen in four temperate species. Oecologia, 111,302-308.
URL
PMID
|
[23] |
Shaver GR, Billings WD (1975). Root production and root turnover in a west tundra ecosystem, Barrow, Alaska. Ecology, 56,401-409.
|
[24] |
Trumbore SE, Gaudinski JB (2003). The secret lives of roots. Science, 302,1344-1345.
DOI
URL
PMID
|
[25] |
Vogt KA, Grier CC, Vogt DJ (1986). Production, turnover and nutritional dynamics of aboveground and belowground detritus of world forest. Advances in Ecological Research, 15,303-377.
|
[26] |
Wang ZQ, Guo DL, Wang XR, Gu JC, Mei L (2006). Fine root architecture, morphology, and biomass of different branch orders of two Chinese temperate tree species. Plant and Soil, 288,155-171.
|
[27] |
Wells CE, Glenn DM, Eissenstat DM (2002). Changes in the risk of fine-root mortality with age: a case study in peach,Prunus persica (Rosaceae). American Journal of Botany, 89,79-87.
URL
PMID
|
[28] |
Withington JM, Reich PB, Oleksyn J, Eissenstat DM (2006). Comparisons of structure and life span in roots and leaves among temperate trees. Ecological Monographs, 76,381-397.
|