Modeling Maize Canopy Morphology in Response to Increased Plant Density

Increased plant density markedly affects canopy morphophysiological activities and crop productivity. This study aims to model maize canopy final morphology under increased interplant competition by revising a functional–structural plant model, i.e., ADEL-Maize. A 2-year field experiment was conducted at Mengcheng, Anhui Province, China, in 2016 and 2018. A randomized complete block design of five plant densities (PDs), i.e., 4.5, 6, 7.5, 9, and 15 plants m–2, with three replications was applied using a hybrid, i.e., Zhengdan 958. Canopy morphology at different PDs was measured with destructive samplings when maize canopy was fully expanded. The relationship of changes of organ morphology in relation to increased plant density was analyzed based on 2016 data. The ADEL-Maize was first calibrated for the hybrid at 4.5 plants m–2 and then revised by introducing relationships identified from 2016 data, followed by independent validation with 2018 field data. A heatmap visualization was shown to clearly illustrate the effects of increased plant density on final morphology of laminae, sheaths, and internodes. The logarithmic + linear equations were found to fit changes for the organ size versus increased plant density for phytomers excluding ear position or linear equations for the phytomer at ear position based on 2016 field data. The revision was then further tested independently by having achieved satisfactory agreements between the simulations and observations in canopy size under different PDs with 2018 field data. In conclusion, this study has characterized the relationship between canopy morphology and increased interplant competition for use in the ADEL-Maize and realized the simulations of final size of laminae, sheaths, and internodes, as affected by increased plant density, laying a foundation to test an ideotype for maize withstanding high interplant competition.

Morphological and physiological responses of dual purpose wheat(Triticum aestivum L.) to nitrogen and seed rates: A review

Growing human population at alarming rate has forced the decline in fallow land available for grazing leading to excessive pressure on fodder production for livestock existence. Growing crops for dual purpose i.e. both grains and fodder together may be a good option for reducing this burden. Wheat may be a better option to mitigate the shortage of grains as well as fodder. Many works have been carried out in this direction considering wheat but the production has been a limitation. Among various agronomical methods, modifications of fertilizers concentrations and seed rate are very crucial which affect yield. Nitrogen is one of major components of fertilizers which plays crucial role in crop growth influencing major physiology including photosynthesis, protein synthesis, nucleic acids synthesis etc. Seed rate is directly related to canopy expansion and solar radiation interception, thereby strongly influencing the use of environmental resources by changing relative importance of intra and interplant competition for light, water and nutrients during crop development and thereby affects wheat yield. Looking at the importance of the issue, this review was carried out to get the information about the effect of seed rates and nitrogen levels on the forage and grain yield of dual purpose wheat genotypes for enhanced productivity.

Influence of Open Alleys in Field Trials Assessing Yield Effects from Fungicides in Corn

Including open alleys at ends of plots is a common practice when field-testing foliar fungicides used in corn production. Open alleys facilitate movement of workers and equipment between plots during spray application. Open alleys affect crop yield estimates in small plots typically used in replicated, randomized experimental designs, because of reduced interplant competition. However, no published research has tested whether the alley effect interacts with fungicide to bias the assessment of the agronomic effects of the latter. We tested this hypothesis over 2 years by evaluating yield with and without application of Headline AMP (containing pyraclostrobin and metconazole) plus nonionic surfactant applied once at VT/R1 in 7.6-m plots separated on their ends by 1.5-m alleys free of aboveground vegetation. In each plot, data were collected from seven subplots, each measuring 1.09 m of row-length and running parallel to the long axis of the plot. Consistent with previous reports, yields of subplots were substantially higher toward plot ends than in the central areas of plots. Surprisingly, a significant (P < 0.10) fungicide × subplot interaction was observed in both experiments, indicating that the yield response from fungicide depended on subplot position within the plot. However, yield differences due to fungicide were trivial when comparing regression-based yield estimates from all seven subplot positions to those obtained from only the centermost three subplot positions. Our study does not lend support to the hypothesis that the open-alley design creates a meaningful bias in assessment of treatment effects due to foliar fungicides in corn. However, additional research on this question is warranted, given the complexities of comparing results in large-scale plots vs. small plots, the limitations of our study, and the widespread use of fungicides on field corn in the United States.

Wheat Landraces Are Better Qualified as Potential Gene Pools at Ultraspaced rather than Densely Grown Conditions

The negative relationship between the yield potential of a genotype and its competitive ability may constitute an obstacle to recognize outstanding genotypes within heterogeneous populations. This issue was investigated by growing six heterogeneous wheat landraces along with a pure-line commercial cultivar under both dense and widely spaced conditions. The performance of two landraces showed a perfect match to the above relationship. Although they lagged behind the cultivar by 64 and 38% at the dense stand, the reverse was true with spaced plants where they succeeded in out-yielding the cultivar by 58 and 73%, respectively. It was concluded that dense stand might undervalue a landrace as potential gene pool in order to apply single-plant selection targeting pure-line cultivars, attributable to inability of plants representing high yielding genotypes to exhibit their capacity due to competitive disadvantage. On the other side, the yield expression of individuals is optimized when density is low enough to preclude interplant competition. Therefore, the latter condition appears ideal to identify the most promising landrace for breeding and subsequently recognize the individuals representing the most outstanding genotypes.

Agronomic performance of different stature sunflower cultivars under different levels of interplant competition

Early-maturing, short-stature sunflower (Helianthus annuus L.) cultivars improve the adaptability of sunflower to the short growing season of western Canada. However, the agronomic potential of the recently developed dwarf cultivars in comparison to standard-height sunflower is yet to be understood. Multi-environment field studies, consisting of space-planted trials, where interplant competition was low, and agronomy trials, where plants were grown at commercial population densities, were conducted in southern Manitoba to compare the yield formation of dwarf hybrids (sunwheats; SW-101 and SW-103), and dwarf open-pollinated c ultivars (sunola; Aurora and Sierra) with that of standard-height cultivars (IS-6111 and SF-187). In space-planted trials, dry matter (DM) accumulation and water use efficiency for dry matter production (WUEDM) decreased as plant height decreased. In agronomy trials, differences in DM and WUEDM among the different height classes were masked. The diversion of assimilate from stem to head depended on the genetic background, while the efficiency of utilising assimilate in the head for seed production was lower in dwarf cultivars. Only one of the four dwarf cultivars (SW-103) displayed a higher harvest index than IS-6111. Higher seed yield for the standard-height cultivar, IS-6111, and the dwarf open-pollinated cultivar, Aurora, compared to other cultivars was attributed to both greater DM and improved DM partitioning. However, variations observed among the dwarf cultivars for DM accumulation and partitioning revealed that the dwarfing gene was not a limiting factor for breeding a dwarf sunflower cultivar with better partitioning of DM along with better yield potential. Key words: Dwarf sunflower, Sunola, seed yield, biomass, water use efficiency

Statistical Adjustment of Maize Grain Yield for Sub-Optimal Plot Stands

SummaryLinear covariance analysis of crop yield data using plot stand as the covariate is not satisfactory when the missing plants are eliminated before maturity. This is because the resulting relationship between yield and plot stand is non-linear. In this paper, a transformation of plot yield data to adjust for sub-optimal stands in circumstances involving interplant competition is examined. A biomathematical derivation and interpretation of the proposed model is provided. An experiment involving two varieties of maize (Zea mays) grown at three locations provided the data used to validate the model. Adjusted genotype mean yield values obtained using the proposed exponential transformation were in agreement with observed values.

Yield and Fruit Size of `Bluecrop' and `Blueray' Highbush Blueberries at Three Plant Spacings

The influence of in-row plant spacing on the yield and fruit size of `Blueray' (erect growing) and `Bluecrop' (spreading) highbush blueberry (Vaccinium corymbosum L.) was studied. Plants of both cultivars, spaced at 0.61 m within the row, had significantly higher yields per hectare than plants grown at wider spacings (0.92 and 1.22 m) in each of five harvest years. On a per-plant basis, however, plants spaced at 1.22 m had higher yields in the last two harvest years of the experiment than plants spaced more closely, which indicated that interplant competition reduced per-plant yields of closely spaced plants as plants grew larger. Over the 5-year harvest period, plots with 0.61-m plant spacing produced a cumulative total yield of 17.24 t·ha more than plots with the conventional 1.22-m spacing. Plant spacing did not affect fruit size in this experiment.

Intraspike yield distribution of diverse-tillering spring wheats: Effects of competition

Three spring wheat (Triticum aestivum L.) genotypes (Neepawa, Siete Cerros and M1417) were subjected to four levels of tiller removal (MS remaining, MS + T1 remaining, MS + T1 + T2 remaining, control) at three plant densities (two, four and eight plants per 15-cm-diameter pot) in a controlled environment to assess the effects of interplant and intraplant competition on the intraspike yield distribution of genotypes with diverse tillering habits. Intraspike yield distribution traits varied significantly (P = 0.01) among genotypes and levels of plant competition. Genotypes did not respond uniformly to interplant or intraplant competition. When interplant competition was increased, the oligoculm genotype, M1417, exhibited a greater reduction in maximum kernels per spikelet (13%) and spikelet yield (36%) than either Siete Cerros (9, 17%) or Neepawa (6, 15%). Similarly, with increasing intraplant competition, M1417 responded by reducing maximum kernels per spikelet (6%) and spikelet yield (9%) whereas Siete Cerros and Neepawa exhibited increases for both traits (3 – 15%). The low-tillering genotypes tended to exhibit a greater sensitivity to competition for maximum spikelet yield or kernel number while Neepawa was more responsive for the rachis node at which yield or kernel number was maximized. Strong developmental dominance of the oligoculm habit appears to reduce plasticity and the ability to respond to competition-induced stress. Key words: Spring wheat, intraspike yield, tiller removal, plant competition