Biogeochemical cycling of soil phosphorus during natural revegetation of Pinus sylvestris on disused sand quarries in Northwestern Russia
Author:
Publisher
Springer Science and Business Media LLC
Subject
Plant Science,Soil Science
Link
http://link.springer.com/content/pdf/10.1007/s11104-013-1627-y.pdf
Reference70 articles.
1. Abakumov EV (2008) Accumulation and transformation of organic matter in different-aged dumps from sand quarries. Eurasian Soil Sci 41:844–851
2. Abakumov EV, Gagarina I, Popov I (2003) Humus formation and development of podzol soils during primary succession of plants on mining-quarries complexes in Taiga zone (Leningrad Region). Bulg J Ecol Sci 2:22–25
3. Abakumov EV, Trubetskoj O, Demin D, Celi L, Cerli C, Trubetskaya O (2010) Humic acid characteristics in podzol soil chronosequence. Chem Ecol 26:59–66
4. Akala VA, Lal R (2000) Potential of mineland reclamation for soil carbon sequestration in Ohio. Land Degrad Develop 11:289–297
5. Akala VA, Lal R (2001) Soil organic carbon pools and sequestration rates in reclaimed mine soils in Ohio. J Environ Qual 30:2098–2104
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