Long-term straw incorporation increases rice yield stability under high fertilization level conditions in the rice–wheat system

<p>Returning crop straw into soil is an important practice to balance biogenic and bioavailable silicon (Si) pool in paddy, which is crucial for rice healthy growth. However, it remains elusive how straw return affects Si bioavailability, its uptake, and rice yield, owing to little knowledge about soil microbial communities responsible for straw degradation. Here, we investigated the change of soil Si fractions and microbial community in a 39-year-old paddy field amended by a long-term straw return. Results showed that rice straw-return significantly increased soil bioavailable Si and rice yield to from 29.9% to 61.6% and from 14.5% to 23.6%, respectively, compared to NPK fertilization alone. Straw return significantly altered soil microbial community abundance. Acidobacteria was positively and significantly related to amorphous Si, while Rokubacteria at the phylum level, Deltaproteobacteria and Holophagae at the class level were negatively and significantly related to organic matter adsorbed and Fe/Mn-oxide combined Si in soils. Redundancy analysis of their correlations further demonstrated that Si status significantly explained 12% of soil bacterial community variation. These findings suggest that soil bacteria community and diversity interact with Si mobility via altering its transformation, resulting in the balance of various nutrient sources to drive biological silicon cycle in agroecosystem.</p>

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Changes in rice yield and yield stability in China during the past six decades

Journal of the Science of Food and Agriculture ◽

10.1002/jsfa.10385 ◽

2020 ◽

Vol 100 (8) ◽

pp. 3560-3569

Author(s):

Le Xu ◽

Shen Yuan ◽

Jianguo Man

Keyword(s):

Rice Yield ◽

Yield Stability ◽

The Past

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Crop adaptation to climate change as a consequence of long-term breeding

Theoretical and Applied Genetics ◽

10.1007/s00122-020-03729-3 ◽

2020 ◽

Author(s):

Rod J. Snowdon ◽

Benjamin Wittkop ◽

Tsu-Wei Chen ◽

Andreas Stahl

Keyword(s):

Climate Change ◽

Climate Adaptation ◽

Major Gene ◽

Stress Constraints ◽

Crop Productivity ◽

Yield Stability ◽

Adaptation To Climate Change ◽

Conventional Breeding ◽

The Impact

AbstractMajor global crops in high-yielding, temperate cropping regions are facing increasing threats from the impact of climate change, particularly from drought and heat at critical developmental timepoints during the crop lifecycle. Research to address this concern is frequently focused on attempts to identify exotic genetic diversity showing pronounced stress tolerance or avoidance, to elucidate and introgress the responsible genetic factors or to discover underlying genes as a basis for targeted genetic modification. Although such approaches are occasionally successful in imparting a positive effect on performance in specific stress environments, for example through modulation of root depth, major-gene modifications of plant architecture or function tend to be highly context-dependent. In contrast, long-term genetic gain through conventional breeding has incrementally increased yields of modern crops through accumulation of beneficial, small-effect variants which also confer yield stability via stress adaptation. Here we reflect on retrospective breeding progress in major crops and the impact of long-term, conventional breeding on climate adaptation and yield stability under abiotic stress constraints. Looking forward, we outline how new approaches might complement conventional breeding to maintain and accelerate breeding progress, despite the challenges of climate change, as a prerequisite to sustainable future crop productivity.

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YIELD TRENDS AND APPARENT NUTRIENT BALANCES IN INTENSIFIED AND DIVERSIFIED RICE-BASED CROPPING SYSTEMS

Experimental Agriculture ◽

10.1017/s001447979900201x ◽

1999 ◽

Vol 35 (2) ◽

pp. 181-199 ◽

Cited By ~ 1

Author(s):

S. R. PASCUA JR ◽

W. VENTURA ◽

E. O. AGUSTIN ◽

A. T. PADRE ◽

D. A. VALENCIA ◽

...

Keyword(s):

Rice Yield ◽

Cropping Systems ◽

Residual Effect ◽

Sweet Pepper ◽

First Year ◽

Wet Season ◽

Crop Residue Incorporation ◽

Yield Trends ◽

Term Field

A long-term field trial was conducted to determine yield trends in relation to nutrient uptake and efficiency in different rice-based cropping systems. The cropping systems had a significant effect on wet season rice yield when residues were not recycled but had no effect otherwise. Rice yield decreased after the first year of crop residue incorporation but increased every year thereafter. Rice yield was significantly affected by residual nutrients applied to dry season crops. The highest residual effect was observed in tomato and sweet pepper to which the highest nitrogen (N), phosphorus (P) and potassium (K) rates were applied. Maize, sweet pepper, and tomato responded well to NPK application, garlic had a low response and mungbean had no response. A relay crop served as a catch crop for excess nutrients and as shade to minimize sunscald effects for tomato and sweet pepper fruits.

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The effects of cropping sequence, fertilization and straw management on the yield stability of winter wheat (1986–2017) in the Broadbalk Wheat Experiment, Rothamsted, UK

The Journal of Agricultural Science ◽

10.1017/s0021859620000301 ◽

2020 ◽

Vol 158 (1-2) ◽

pp. 65-79

Author(s):

J. Macholdt ◽

H.-P. Piepho ◽

B. Honermeier ◽

S. Perryman ◽

A. Macdonald ◽

...

Keyword(s):

Winter Wheat ◽

Management Practices ◽

Wheat Yield ◽

Organic Manure ◽

Yield Stability ◽

N Fertilizer ◽

Mineral N ◽

Straw Management ◽

Yield Risk

AbstractThe development of resilient cropping systems with high yield stability is becoming increasingly important due to future climatic and agronomic challenges. Consequently, it is essential to compare the effects of different agronomic management practices, such as cropping sequences and nutrient supply, on the stability of crop yields. Long-term experiments are a valuable resource for investigating these effects, as they provide enough time to accurately estimate stability parameters. The objective of the current study was to compare the effects of different cropping sequencing (#1: continuous v. rotational), fertilization (#2: mineral v. organic) and straw management techniques (in the case of continuous wheat; #3: removal v. incorporation) on the yield stability of winter wheat; yield risk (the probability of yield falling below a threshold yield level) and inter-annual yield variability were used as stability indicators of the effects. Long-term yield data from the Broadbalk Wheat Experiment (Rothamsted, UK) were analysed using a mixed model. Overall, the results showed that rotational cropping combined with sufficient mineral N fertilizer, with or without organic manure, ensured stable wheat yields while reducing yield risk. In contrast, higher yield risks and inter-annual yield variabilities were found in continuous wheat sections with less mineral N fertilizer or with organic manure only.

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