Effect of Photo-Selective Nets on Yield, Fruit Quality and Psa Disease Progression in a ‘Hayward’ Kiwifruit Orchard

Moura, Luísa; Pinto, Rui; Rodrigues, R.; Brito, L. M.; Rego, Rute; Valín, Maria Isabel; Mariz-Ponte, Nuno; Santos, Conceição; Mourão, I.

doi:10.3390/horticulturae8111062

Cited by 3 publications

(1 citation statement)

References 36 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The lower fertility associated with a larger pollen size can also impair the pollination efficiency and impact the production/fruit size levels, even though this fertility decrease under the nets could be compensated for through artificial pollination and pollinators. A study developed in the same orchard for assessing the influence of the PNs on the yield reported a 40% decrease in the fruit production under the three nets in 2020 compared to the control [ 23 ]. One interesting aspect to look at in the future is whether the plants could naturally balance the loss of pollen fertility by producing a greater number of pollen grains per anther, as observed in other species [ 24 ].…”

Section: Discussionmentioning

confidence: 99%

Can Photoselective Nets’ Influence Pollen Traits? A Case Study in ‘Matua’ and ‘Tomuri’ Kiwifruit Cultivars

Ribeiro,

Mariz-Ponte,

Pereira

et al. 2024

Plants

View full text Add to dashboard Cite

The increasing use of photoselective nets (PNs) raises the question of their influence on pollen traits. We aimed to evaluate the effect of PNs (yellow, pearl, and grey) on the pollen of ‘Matua’ and ‘Tomuri’ Actinidia deliciosa cultivars. The pollen size and the exine were studied with a light microscopy and a scanning electron microscopy, and the fertility was analysed by a viability assay and in vitro germination. The total soluble proteins (TSPs) and sugars (TSSs) were quantified by colorimetric assays. The molecular structure of the pollen grain’s wall was analysed by a Raman spectroscopy. The pollen from the plants under the PNs had a larger width and area and a lower germination rate. No significant changes were observed in the exine’s microperforations. The TSP and TSS contents were influenced by the cultivar and PNs (particularly the pearl PN). The Raman spectra of the pollen from the plants grown under the nets presented some bands that significantly shifted from their original position, indicating differences in the vibration modes of the molecules, but no overall changes at their structural or organisation level were found. Our study showed that the PNs could influence several pollen traits, with the pearl PN inducing greater modifications. Our results also support the idea that cultivars affect the outcome of some characteristics.

show abstract

Section: Discussionmentioning

confidence: 99%

Can Photoselective Nets’ Influence Pollen Traits? A Case Study in ‘Matua’ and ‘Tomuri’ Kiwifruit Cultivars

Ribeiro,

Mariz-Ponte,

Pereira

et al. 2024

Plants

View full text Add to dashboard Cite

show abstract

Sparse-shading red net improves water relations in Valencia orange trees

Nemera,

Dovjik,

Florentin

et al. 2023

Agricultural Water Management

View full text Add to dashboard Cite

Diurnal response of ecophysiological parameters in kiwifruit under photoselective pearl net

Riveros-Burgos,

Zúñiga,

Olguín

et al. 2024

Journal of Berry Research

View full text Add to dashboard Cite

Background Agricultural adaptation to climate change is crucial, particularly in semi-arid and arid regions. Modern agriculture requires innovative strategies to protect crops from extreme weather events. Photoselective pearl net offers promise in mitigating environmental stresses in kiwifruit production, especially in Chile. Objective This study aims to characterize kiwifruit plants’ diurnal ecophysiological responses under photoselective pearl net. Materials The trial was conducted in a commercial kiwifruit orchard in Chile's Colchagua valley, focusing on ‘Hayward’ vines grown under a photoselective pearl net. A completely randomized design with two treatments (uncovered and covered) was employed. Meteorological parameters, canopy spectral reflectance, vegetative growth, and ecophysiological parameters were evaluated. Results Pearl netting reduced photosynthetically active radiation (PAR), leading to increased shoot length and leaf area. Despite the high variability of the diurnal response of the ecophysiological parameters, there were no significant differences in leaf water potential (ψx) and stomatal conductance (gs) between treatments. Conclusion Photoselective pearl net effectively modifies the light environment, enhancing vegetative growth without compromising key physiological functions. These findings suggest that photoselective netting can improve crop management practices and resilience to climatic variability.

show abstract

Effect of Photo-Selective Nets on Yield, Fruit Quality and Psa Disease Progression in a ‘Hayward’ Kiwifruit Orchard

Cited by 3 publications

References 36 publications

Can Photoselective Nets’ Influence Pollen Traits? A Case Study in ‘Matua’ and ‘Tomuri’ Kiwifruit Cultivars

Can Photoselective Nets’ Influence Pollen Traits? A Case Study in ‘Matua’ and ‘Tomuri’ Kiwifruit Cultivars

Sparse-shading red net improves water relations in Valencia orange trees

Diurnal response of ecophysiological parameters in kiwifruit under photoselective pearl net

Contact Info

Product

Resources

About