Changes in soil biochemical indicators at different wheat growth stages under conservation-based sustainable intensification of rice-wheat system

doi:10.1016/S2095-3119(17)61835-5

摘要/Abstract

摘要： Received 1 September, 2017 Accepted 15 November, 2017

© 2018 CAAS. Publishing services by Elsevier B.V. All rights reserved.
doi:

Abstract:

Soil microbes play critical roles in soil biogeochemistry, soil biological health and crop productivity. The current study evaluated the effects of tillage and residue management on changes in soil biochemical indicators at different growth stages of wheat after 5 years of rice-wheat system. Nine treatment combinations of tillage, crop establishment and crop residue management included three main plot treatments applied to rice: (1) conventional till direct dry seeded rice (CTDSR), (2) zero till direct dry seeded rice (ZTDSR), and (3) conventional puddled manual transplanted rice (CTPTR) and three sub-plot treatments in subsequent wheat: (1) conventional tillage with rice residue removed (CTW-R), (2) zero tillage with rice residue removed (ZTW-R) and (3) zero tillage with rice residue retained as surface mulch (ZTW+R). Irrespective of rice treatments, ZTW+R treatment had higher soil biochemical indicators compared with ZTW-R and CTW-R at all the growth stages of wheat. Generally, all the biochemical indicators were the highest at the flowering stage of wheat. Residual effect of rice treatments was also significant on biochemical quotients in wheat, which were the highest under ZTDSR followed by CTDSR and CTPTR. The present study provided three sensitive and reliable biochemical indicators (microbial biomass, basal soil respiration and microbial quotient) which respond rapidly to change in tillage and residue management practices in RWS of South Asia.

Key words: microbial metabolic quotients , tillage practices , residue retention , cropping system

. [J]. Journal of Integrative Agriculture, 2018, 17(08): 1871-1880.

Tanushree Bera, Sandeep Sharma, H. S. Thind, Yadvinder-Singh, H. S. Sidhu, M. L. Jat. Changes in soil biochemical indicators at different wheat growth stages under conservation-based sustainable intensification of rice-wheat system[J]. Journal of Integrative Agriculture, 2018, 17(08): 1871-1880.

参考文献

Alef K. 1995. Basal respiration. In: Alef K, Nannipieri P, eds., Method in Applied Soil Microbiology and Biochemistry.Academic Press, Harcourt Brace and Company, London. pp. 228–231.
Anderson J P E. 1982. Soil respiration. In: Page A L, Miller R H, Keeney D R, eds., Methods of Soil Analysis, Part 2. Chemical and Microbiological Properties. 2nd ed. Amercian Society of Agronomy Madison, Wisconsin, USA. pp. 831–871.
Anderson T H, Domsch K H. 1990. Application of eco-physiological quotients (qCO2 and qD) on microbial biomasses from soils of different cropping histories. Soil Biology and Biochemistry, 22, 251–255.
Anderson T H, Domsch K H. 1993. The metabolic quotient for CO2 (qCO2) as a specific activity parameter to assess the effects of environmental conditions, such as pH, on the microbial biomass of forest soils. Soil Biology and Biochemistry, 25, 393–395.
Bera T, Sharma S, Thind H S, Yadvinder-Singh, Sidhu H S, Jat M L. 2017. Soil biochemical changes at different wheat growth stages in response to conservation agriculture practices in a rice-wheat system of north-western India. Soil Research, 56, 91–104.
Bhaduri D, Purakayastha T J, Patra A K, Singh Man, Wilson B R. 2017. Biological indicators of soil quality in a long-term rice-wheat system on the Indo-Gangetic plain: Combined effect of tillage-water-nutrient management. Environmental Earth Sciences, 76, 202.
Caravaca F, Roldan A. 2003. Assessing changes in physical and biological properties in a soil contaminated by soil sludges under semiarid Mediterranean conditions. Geoderma, 117, 53–61.
Das A, Lal R, Patel D P, Idapuganti R G, Layek J, Ngachan S V, Ghosh R G, Bordoloi J, Kumar M. 2014. Effects of tillage and biomass on soil quality and productivity of lowland rice cultivation by small scale farmers in North Eastern India. Soil and Tillage Research, 143, 50–58.
Dikgwatlhe S B, Kong F L, Chen Z D, Lal R, Zhang H L, Chen F. 2014. Tillage and residue management effects on temporal changes in soil organic carbon and fractions of a silty loam soil in the North China Plain. Soil Use and Management, 30, 496–506.
Dilly O, Munch J C. 1998. Ratios between estimates of microbial biomass content and microbial activity in soils. Biology and Fertility of Soils, 27, 374–379.
Dou F, Wright A L, Hons F M. 2008. Sensitivity of labile soil organic carbon to tillage in wheat-based cropping systems. Soil Science Society of American Journal, 72, 1445–1453.
Gathala M K, Kumar V, Sharma P C, Saharawat Y S, Jat H S, Singh M, Kumar A, Jat M L, Humphreys E, Sharma D K, Sharma S, Ladha J K. 2013. Optimizing intensive cereal-based cropping systems addressing current and future drivers of agricultural change in the northwestern Indo-Gangetic Plains of India. Agriculture Ecosystems and Environment, 177, 85–97.
Gil-Sotres F, Trasar-Cepeda C, Leiros M C, Seoane S. 2005. Different approaches to evaluating soil quality using biochemical properties. Soil Biology and Biochemistry, 37, 877–887.
Gonza lez-Chavez M D C, Aitkenhead-Peterson J A, Gentry T J, Frank Hons D Z, Loeppert R. 2010. Soil microbial community, C, N, and P responses to long-term tillage and crop rotation. Soil and Tillage Research, 106, 285–293.
Gregorich E G, Liang B C, Drury C F, Mackenzie A F, McGill W B. 2000. Elucidation of the source and turnover of water soluble and microbial biomass carbon in agricultural soils. Soil Biology and Biochemistry, 32, 581–587.
Guo L J, Lin S, Liu T Q, Cao C G, Li C. 2016. Effects of conservation tillage on topsoil microbial metabolic characteristics and organic carbon within aggregates under a rice (Oryza sativa L.) wheat (Triticum aestivum L.) cropping system in central China. PLoS ONE, 11, 1–17.
Gupta R K, Seth A. 2007. A review of resource conserving technologies for sustainable management of the rice-wheat cropping system of the Indo-Gangetic plains. Crop Protection, 26, 436–447.
Haripal K, Sahoo S. 2014. Microbial biomass Carbon, Nitrogen, and Phosphorus dynamics along a chronosequence of abandoned tropical agroecosystems. International Journal of Current Microbiology and Applied Science, 3, 956–970.
Haynes R J. 2005. Labile organic matter fractions as central components of the quality of agricultural soils: An overview. Advances in Agronomy, 85, 221–268.
Insam H, Haselwandter K. 1989. Metabolic quotient of the soil microflora in relation to plant succession. Oecologia, 79, 174–178.
Insam H, Mitchell C C, Dormaar J F. 1991. Relationship of soil microbial biomass and activity with fertilization practice and crop yield of three actisols. Soil Biology and Biochemistry, 23, 459–464.
Insam H, Parkinson D, Domsch K H. 1989. Influence of macroclimate on soil microbial biomass. Soil Biology and Biochemistry, 21, 211–221.
IRRI (International Rice Research Institute). 2000. IRRISTAT for Window (CD-ROM). ver. 4.02b. International Rice Research Institute, Los Banos, Philippines.
Jamuna N, Pynthamizhan S, John J E, Sivakuma K, Tilak M, Shanmugam R. 2016. Studies on relationship between soil microbial population and various physicochemical properties at three different locations of mulberry fields in Coimbatore. Journal of International Acadmic Research Multidiscipline 4, 43–48.
Jat M L, Dagar J C, Sapkota T B, Yadvinder-Singh, Govaerts B, Ridaura S L, Saharawat Y S, Sharma R K, Tetarwal J P, Jat R K, Hobbs H, Stirling C. 2016. Climate change and agriculture: Adaptation strategies and mitigation opportunities for food security in south Asia and Latin America. Advances in Agronomy, 137, 127–236.
Jin K, Sleutel S D, Buchan S D, Neve D X, Cai D, Gabriels , Jin J Y. 2009. Changes of soil enzyme activities under different tillage practices in the Chinese Loess Plateau. Soil and Tillage Research, 104, 115–120.
Ladha J K, Kumar V, Alam M M, Sharma S, Gathala M, Chandana P, Saharawat Y S, Balasubramanian V. 2009. Integrating crop and resource management technologies for enhanced productivity, profitability and sustainability of the rice-wheat system in South Asia. In: Ladha J K, Yadvinder-Singh, Erenstein O, Hardy B, eds., Integrated Crop and Resource Management in the Rice-Wheat System of South Asia. International Rice Research Institute, Los Banos, Philippines. pp. 69–108.
Li D, Niu S, Luo Y. 2012. Global patterns of the dynamics of soil carbon and nitrogen stocks following afforestation: A meta-analysis. New Phytologist, 19, 172–181.
Loveland P, Webb J. 2003. Is there a critical level of organic matter in the agricultural soils of temperate regions: A review. Soil and Tillage Research, 70, 1–18.
Luo Y, Durenkamp M, Nobili M D, Lin Q, Devonshire B J, Brookes P C. 2013. Microbial biomass growth following incorporation of biochars produced at 350°C or 700°C, in a silty-clay loam soil of high and low pH. Soil Biology and Biochemistry, 57, 513–523.
Malhi S S, Grant C A, Johnston A M, Gill K S. 2001. Nitrogen fertilization management for no-till cereal production in the Canadian Great Plains: A review. Soil and Tillage Research, 60, 101–122.
Meng L, Ding W, Cai Z. 2005. Long-term application of organic manure and nitrogen fertilizer on N2O emissions, soil quality and crop production in a sandy loam soil. Soil Biology and Biochemistry, 37, 2037–2045.
Moharana P C, Sharma B M, Biswas D R, Dwivedi B S, Singh R V. 2012. Long term effect of nutrient management on soil fertility and soil organic carbon pools under a 6-year-old pearl millet-wheat cropping system in an Inceptisol of subtropical India. Field Crop Research, 136, 32–41.
Olsen S R, Cole C V, Watanabe F S, Dean L A. 1954. Estimation of available phosphorus in soils by extraction with sodium bicarbonate. Circular, 939, 19.
Pajares S, Gallardo J F, Masciandaro G. 2009. Biochemical indicators of carbon dynamic in an Acrisol cultivated under different management practices in the central Mexican highlands. Soil and Tillage Research, 105, 156–163.
Pinzari F, Trinchera A, Benedetti A, Sequi P. 1999. Use of biochemical indices in the Mediterranean environment: Comparison among soils under different forest vegetation. Journal of Microbiological Methods, 36, 21–28.
Sidhu H S, Manpreet-Singh, Humphreys E, Yadvinder-Singh, Balwinder-Singh, Dhillon S S, Blackwell J, Bector V, Malkeet-Singh, Sarbjeet-Singh. 2007. The Happy Seeder enables direct drilling of wheat into rice stubble. Australian Journal of Experimental Agriculture, 47, 844–854.
Sidhu H S, Manpreet-Singh, Yadvinder-Singh, Blackwell J, Humphreys E, Jat M L, Singh V. 2015. Development and evaluation of the Turbo Happy Seeder for sowing wheat into heavy rice residues in NW India. Field Crops Research, 184, 201–212.
Singh S S, Singh A K, Sundaram P K. 2014. Agrotechnological options for upscaling agricultural productivity in eastern Indo-Gangetic Plains under impending climate change situations: A review. Journal of Agriculture Research, 1, 55–65.
Smith K A, Dobbie K E, Ball B C, Bakken L R, Sitaula B K, Hansen S R, Brumme R, Borken W, Christensen S, Priemé A, Fowler D, Macdonald J A, Skiba U, Klemedtsson L, Kasimir-Klemedtsson A, Degórska A, Orlanski P. 2000. Oxidation of atmospheric methane in Northern European soils, comparison with other ecosystems, and uncertainties in the global terrestrial sink. Global Change Biology, 6, 791–803.
SoonY K, Lupwayi N Z. 2012. Straw management in a cold semi-arid region: Impact on soil quality and crop productivity. Field Crops Research, 139, 39–46.
Spohn M. 2015. Microbial respiration per unit microbial biomass depends on litter layer carbon-to-nitrogen ratio. Biogeosciences, 12, 817–823.
Srinivasan V, Maheswarappa H P, Lal R. 2012. Long term effects of topsoil depth and amendments on particulate and non particulate carbon fractions in a Miamian soil of Central Ohio. Soil and Tillage Research, 121, 10–17.
Stark C, Condron L M, Stewart A, Di H J, Callaghan M O. 2007. Influence of organic and mineral amendments on soil microbial properties and processes. Applied Soil Ecology, 35, 79–93.
Tamilselvi S M, Chinnaduraia K C, Ilamurugua K, Arulmozhiselvanb K, Balachandara D. 2014. Effect of long-term nutrient managements on biological and biochemical properties of semi-arid tropical alfisol during maize crop development stages. Ecological Indicators, 48, 76–87.
Tong C L, Xiao H A, Tang G Y, Wang H Q, Huang T Q, Xia H A, Keith S J, Li Y, Liu S L, Wu J S. 2009. Long-term fertilizer effects on organic carbon and total nitrogen and coupling relationships of C and N in paddy soils in subtropical China. Soil and Tillage Research, 106, 8–14.
Vance E D, Brookes P C, Jenkinson D S. 1987. An extraction method for measuring soil microbial biomass carbon. Soil Biology and Biochemistry, 19, 703–707.
Walkley A, Black I A. 1934. An examination of the Degtjareff method for determining soil organic matter and a proposed modification of the chromic acid titration method. Soil Science, 37, 29–38.
Wang Q Y, Wang Y, Wang Q C, Li J S. 2014. Impacts of 9 years of a new conservational agricultural management on soil organic carbon fractions. Soil and Tillage Research, 143, 1–6.
Wardle D A, Ghani A. 1995. A critique of the microbial metabolic quotient (qCO2) as a bioindicator of disturbance and ecosystem development. Soil Biology and Biochemistry, 27, 1601–1610.
Wei T, Zhang P, Wang K, Ding R, Yang B, Nie J, ZJia Z, Han Q. 2015. Effects of wheat straw incorporation on the availability of soil nutrients and enzyme activities in semiarid areas. PLoS ONE, 10, 1–15.
Yadvinder-Singh, Gupta R K, Jagmohan-Singh, Gurpreet-Singh, Gobinder-Singh, Ladha J K. 2010. Placement effects on rice residue decomposition and nutrient dynamics on two soil types during wheat cropping in rice-wheat system in northwestern India. Nutrient Cyclying in Agroecosystems, 88, 471–480.
Yadvinder-Singh, Sidhu H S. 2014. Management of cereal crop residues for sustainable rice-wheat production system in the Indo-Gangetic Plains of India. Proceedings of the Indian National Sciences Academy, 80, 95–114.
Ye X F, Liu H G, Li Z, Wang Y, Wang Y Y, Wang H F, Liu G S. 2014. Effects of green manure continuous application on soil microbial biomass and enzyme activity. Journal of Plant Nutrition, 37, 498–508.
Zhang Y, Zang G Q, Tang Z H, Chen X H, Yu Y S. 2014. Burning straw, air pollution, and respiratory infections in China. Amercian Journal of Infection Control, 42, 81–87.