Spectral reflectance data originating from Unmanned Aerial Vehicle (UAV) imagery is a valuable tool to monitor plant nutrition, reduce nitrogen (N) application to real needs, thus producing both economic and environmental benefits. The objectives of the trial were i) to compare the spectral reflectance of 3 turfgrasses acquired via UAV and by a ground-based instrument; ii) to test the sensitivity of the 2 data acquisition sources in detecting induced variation in N levels. N application gradients from 0 to 250 kg ha-1 were created on 3 different turfgrass species: Cynodon dactylon x transvaalensis (Cdxt) ‘Patriot’, Zoysia matrella (Zm) ‘Zeon’ and Paspalum vaginatum (Pv) ‘Salam’. Proximity and remote-sensed reflectance measurements were acquired using a GreenSeeker handheld crop sensor and a UAV with onboard a multispectral sensor, to determine Normalized Difference Vegetation Index (NDVI). Proximity-sensed NDVI is highly correlated with data acquired from UAV with r values ranging from 0.83 (Zm) to 0.97 (Cdxt). Relating NDVI-UAV with clippings N, the highest r is for Cdxt (0.95). The most reactive species to N fertilization is Cdxt with a clippings N% ranging from 1.2% to 4.1%. UAV imagery can adequately assess the N status of turfgrasses and its spatial variability within a species, so for large areas, such as golf courses, sod farms or race courses, UAV acquired data can optimize turf management. For relatively small green areas, a hand-held crop sensor can be a less expensive and more practical option.
Autonomous mowers are battery-powered machines designed for lawn mowing that require very low human labour. Autonomous mowers can increase turf quality and reduce local noise and pollution compared with gasoline-powered rotary mowers. However, very little is known about the effects of autonomous mowing on encroaching weeds. The aim of this research was to compare the effects of an autonomous mower and an ordinary gasoline-powered mower on weed development in an artificially infested tall fescue (Festuca arundinacea Schreb.) turf with different nitrogen (N) rates. A three-way factor experimental design with three replications was adopted. Factor A consisted of three N rates (0, 75, and 150 kg ha −1 ), factor B consisted of two mowing systems (autonomous mower vs. walk-behind gasoline rotary mower equipped for mulching), and factor C which consisted of four different transplanted weed species: (a) Bellis perennis L., (b) Trifolium repens L.; (c) Trifolium subterraneum L.; and (d) Lotus corniculatus L. Of these, B. perennis is a rosette-type plant, while the other three species are creeping-type plants. The interaction between mowing system and transplanted weed species showed that the four transplanted weed species were larger when mowed by the autonomous mower than by the rotary mower. The autonomous mower yielded larger weeds probably because the constant mowing height caused the creeping weed species to grow sideways, since the turfgrass offered no competition for light. N fertilization increased turf quality and mowing quality, and also reduced spontaneous weed infestation. Autonomous mowing increased turf quality, mowing quality, but also the percentage of spontaneous weed cover.
Breeding of turf bermudagrass (Cynodon (L.) Rich.) has made available a broad range of turf varieties with\ud unique morphological and growth traits. Rapid establishment is necessary in order to provide the performance\ud of a mature turf cover in the shortest time possible. The aims of the research were: (1) to determine variation of\ud growth, morphological and biomass traits in bermudagrass accessions belonging to different phenotypic groups\ud during establishment and (2) to relate such variations to establishment speed in order to assess whether\ud contrasting phenotypic traits could induce different establishment patterns in bermudagrass or if a general\ud establishment predictor can be identified for cultivars and ecotypes belonging to the same taxon. Plant material\ud included 44 accessions of bermudagrasses that were grouped in ‘Wild’, ‘Improved’ ‘Hybrid’ and ‘Dwarf types’.\ud Single spaced plants were transplanted in field plots in two locations in Italy (Pisa and Palermo) and allowed to\ud establish without mowing. The following traits were determined: stolon growth rate, internode length,\ud internode diameter and internode volume, phytomer dry weight, leaf width, colour, seed head production,\ud above ground dry biomass, shoot density, horizontal stem density and node density. Establishment speed of\ud accessions was also determined. Stolon growth rate was found to be the only parameter strongly correlated to\ud establishment speed across all entries and for each of the phenotypic groups. Based on these results, stolon\ud growth rate could be assumed as a good predictor of establishment speed for cultivars and ecotypes belonging to\ud the Cynodon genus
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