Consistent responses of microbial C and N metabolic processes to elevated CO2 across global terrestrial ecosystems

The use of living mulch with legumes is increasing but the impact of this management technique on the soil microbial pool is not well known. In this work, the effect of different live mulches was evaluated in relation to the C, N and P pools of the microbial biomass, in a Typic Alfisol of Seropédica, RJ, Brazil. The field experiment was divided in two parts: the first, consisted of treatments set in a 2 x 2 x 4 factorial combination of the following factors: live mulch species (Arachis pintoi and Macroptilium atropurpureum), vegetation management after cutting (leaving residue as a mulch or residue remotion from the plots) and four soil depths. The second part had treatments set in a 4 x 2 x 2 factorial combination of the following factors: absence of live mulch, A. pintoi, Pueraria phaseoloides, and M. atropurpureum, P levels (0 and 88 kg ha-1) and vegetation management after cutting. Variation of microbial C was not observed in relation to soil depth. However, the amount of microbial P and N, water soluble C, available C, and mineralizable C decreased with soil depth. Among the tested legumes, Arachis pintoi promoted an increase of microbial C and available C content of the soil, when compared to the other legume species (Pueraria phaseoloides and Macroptilium atropurpureum). Keeping the shoot as a mulch promoted an increase on soil content of microbial C and N, total organic C and N, and organic C fractions, indicating the importance of this practice to improve soil fertility.

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Release of ninhydrin-reactive compounds during fumigation of soil to estimate microbial C and N

Soil Biology and Biochemistry ◽

10.1016/0038-0717(93)90186-f ◽

1993 ◽

Vol 25 (12) ◽

pp. 1803-1805 ◽

Cited By ~ 23

Author(s):

G.P. Sparlig ◽

V.V.S.R. Gupta ◽

Chunya Zhu

Keyword(s):

C And N ◽

Microbial C

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Response of Terrestrial Ecosystems to Elevated CO2: A Synthesis and Summary

Carbon Dioxide and Terrestrial Ecosystems ◽

10.1016/b978-012505295-5/50023-9 ◽

1996 ◽

pp. 415-429 ◽

Cited By ~ 35

Author(s):

George W. Koch ◽

Harold A. Mooney

Keyword(s):

Elevated Co2 ◽

Terrestrial Ecosystems

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A general biogeochemical model describing the responses of the C and N cycles in terrestrial ecosystems to changes in CO2, climate, and N deposition

Tree Physiology ◽

10.1093/treephys/9.1-2.101 ◽

1991 ◽

Vol 9 (1-2) ◽

pp. 101-126 ◽

Cited By ~ 223

Author(s):

E. B. Rastetter ◽

M. G. Ryan ◽

G. R. Shaver ◽

J. M. Melillo ◽

K. J. Nadelhoffer ◽

...

Keyword(s):

Terrestrial Ecosystems ◽

N Deposition ◽

Biogeochemical Model ◽

C And N

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Changes in extractable and microbial C, N, and P in a Western Australian wheatbelt soil following simulated summer rainfall

Soil Research ◽

10.1071/s97044 ◽

1998 ◽

Vol 36 (5) ◽

pp. 841 ◽

Cited By ~ 22

Author(s):

A. M. McNeill ◽

G. P. Sparling ◽

D. V. Murphy ◽

P. Braunberger ◽

I. R. P. Fillery

Keyword(s):

Organic N ◽

Land Uses ◽

Simulated Rainfall ◽

Soil Extracts ◽

Rainfall Events ◽

Olsen P ◽

Significant Difference ◽

C And N ◽

Microbial C ◽

Western Australian

The effects of simulated rainfall events during the summer fallow period on extractable and microbial carbon (C), nitrogen (N), and phosphorus (P) in soils under either continuous wheat or the second-year pasture phase of a 2-pasture-1-wheat rotation in the Western Australian wheatbelt were investigated. A ‘single wetting’ treatment (45 mm rainfall on Day 0) was compared with a 55 mm ‘multiple wetting’ treatment (45 mm at Day 0, 5 mm at Day 3, and 5 mm at Day 8). Soil samples from 0{10 cm depth were taken prior to, and at regular intervals up to 14 days following, the inital wetting event. Soil extracts were assayed for total soluble N (TSN), total oxidisable C (TOC), Olsen-P, and ninhydrin-positive compounds (NPC). Prior to the simulated rainfall events, extractable TSN and TOC in the air-dry fallow soils were significantly higher (P < 0·01), and Olsen-P significantly lower, for the pasture land use compared with the continuous wheat. However, subsequent to wetting there were no significant differences between the 2 land uses, or single and multiple wetting treatments, for extractable TSN, TOC, Olsen P, or NPC. Extractable soluble organic N (SON), calculated by subtracting measured inorganic N from TSN, decreased within 48 h of each wetting event to a minimal value but, after the first 2 wetting events, subsequently increased to at least the prewet value. Microbial C, N, and P were estimated from the difference in TOC, TSN, and Olsen-P of extracts from fumigated and unfumigated soils (microbial ‘flush’) and microbial C and N were also estimated from the NPC ‘flush’. There was generally good agreement between the 2 estimates of microbial N (NPC and TSN, R2 = 0·50), but less so for the 2 estimates of microbial C (NPC and TOC, R2 = 0 ·31). There was no significant difference in microbial C, N, or P between the 2 land uses, but there was a highly significant response of the microbial biomass to wetting events and also significant differences in temporal patterns between the single and multiple wetting treatments. Microbial C and N increased in the period following initial wetting, more rapidly in the wheat than the pasture, reaching a peak at Day 2 for wheat and Day 3 for pasture. Subsequently, for the single wet treatment, there was a steady linear decline in microbial C and N until Day 10, whereas over the same period (Days 4-10) in the multiple wet treatment there were 2 highly significant quadratic responses to time, manifest as a linear increase in microbial C and N following each re-wetting event, to a peak value 24 h after the event, and a subsequent decline to the pre-wet value after a further 24 h.

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