Your search keyword '"Bloomberg, Mark"' showing total 4 results

1. Quantifying perennial ryegrass (Lolium perenne L.) and white clover (Trifolium repens L.) seed germination responses to water potential and temperature with a hydrothermal time model.

Author

Shayanfar, Ali, Sharifiamina, Shirin, Moot, Derrick J., Moltchanova, Elena, and Bloomberg, Mark

Subjects

WHITE clover, LOLIUM perenne, RYEGRASSES, WATER temperature, GERMINATION, PASTURES, HIGH temperatures

Abstract

In New Zealand, a commonly sown pasture combination is perennial ryegrass with white clover. The hydrothermal time model (HTT) was used to quantify germination under different temperature (T) and water potential (WP) conditions for white clover 'Nomad' and perennial ryegrass 'Stellar AR1'. Seeds were germinated in vitro under a range of T × WP combinations, and HTT models were fitted to germination time course data. Rapid germination of white clover under optimum T and WP was reflected by a much lower value for its HTT constant compared with perennial ryegrass (10.8 vs 80.7 MPa °C d). However, the lower base water potential for perennial ryegrass (−1.29 vs −0.495 MPa) and a higher threshold temperature for thermoinhibition (21.8 vs 18.3°C), meant that predicted perennial ryegrass germination was more resilient in warm dry conditions. HTT models can be used to assist decisions about the timing of perennial ryegrass and white clover sowing. [ABSTRACT FROM AUTHOR]

Published

2020

2. Comparison of three different statistical approaches (non-linear least-squares regression, survival analysis and Bayesian inference) in their usefulness for estimating hydrothermal time models of seed germination.

Author

Moltchanova, Elena, Sharifiamina, Shirin, Moot, Derrick J., Shayanfar, Ali, and Bloomberg, Mark

Subjects

GERMINATION, BAYESIAN analysis, SURVIVAL analysis (Biometry), STANDARD deviations, REGRESSION analysis

Abstract

Hydrothermal time (HTT) models describe the time course of seed germination for a population of seeds under specific temperature and water potential conditions. The parameters of the HTT model are usually estimated using either a linear regression, non-linear least squares estimation or a generalized linear regression model. There are problems with these approaches, including loss of information, and censoring and lack of independence in the germination data. Model estimation may require optimization, and this can have a heavy computational burden. Here, we compare non-linear regression with survival and Bayesian methods, to estimate HTT models for germination of two clover species. All three methods estimated similar HTT model parameters with similar root mean squared errors. However, the Bayesian approach allowed (1) efficient estimation of model parameters without the need for computation-intensive methods and (2) easy comparison of HTT parameters for the two clover species. HTT models that accounted for a species effect were superior to those that did not. Inspection of credibility intervals and estimated posterior distributions for the Bayesian HTT model shows that it is credible that most HTT model parameters were different for the two clover species, and these differences were consistent with known biological differences between species in their germination behaviour. [ABSTRACT FROM AUTHOR]

Published

2020

3. Combined effects of cotyledon excision and nursery fertilization on root growth, nutrient status and outplanting performance of Quercus variabilis container seedlings.

Author

Shi, Wenhui, Bloomberg, Mark, Li, Guolei, Su, Shuchai, and Jia, Liming

Subjects

*OAK, *COTYLEDONS, *PLANT nurseries, *ROOT growth, *PLANT nutrients, *SEEDLINGS

Abstract

Artificial excision of the distal part of acorns in order to promote germination is well researched in oak seedling cultivation studies. However, studies of combined effects of cotyledon excision and nursery fertilization on container seedlings are lacking, especially for seedling root growth and outplanting performance. This study aimed to explore the main effects of cotyledon excision on Quercus variabilis seedling emergence characteristics and demonstrated the combined effects of cotyledon excision and nursery fertilization on seedling quality to improve Quercus variabilis seedling outplanting performance. Four cotyledon excision treatments and two classes of nursery fertilization were implemented. Seedling emergence was noted every week after sowing. Seedling dry mass, morphology, and nutrient status were assessed at the end of the nursery season. After the first outplanting season, the aforementioned measurements along with seedling survival were determined once again. The results showed that cotyledon excision generally induced greater and more rapid seedling emergence, but did not affect shoot emergence synchronicity. The highest total emergence and emergence rate occurred with Intermediate excision (1/2 of the distal end of acorn was excised). Effects of nutrient loss due to cotyledon excision on seedling quality and outplanting performance were somewhat compensated by nursery fertilization. Nursery fertilization promoted dry mass increment (the net increment from T0 to T2 for dry mass) for excised seedlings after outplanting, resulting in better performance for Slight (1/3 of the distal end of acorn was excised) and Intermediate excision treatments in the field. Thus we conclude Intermediate excision combined with reasonable nursery fertilization can be recommended for production of nursery grown seedlings for afforestation. [ABSTRACT FROM AUTHOR]

Published

2017

4. Key features of the seed germination response to high temperatures.

Author

Watt, Michael S. and Bloomberg, Mark

Subjects

*GERMINATION, *EFFECT of temperature on plants, *AESCHYNOMENE, *BEETS, *CHAMAECRISTA, *SIMULATION methods & models

Abstract

The article presents a study on the hydrothermal time (HTT) model which is used to describe the germination rate (GR) response to temperature (GR-T). The study involved data from 37 plant species including Aeschynomene americana, Beta vulgaris, and Chamaecrista rotundifolia. The result showed that the HTT model can accurately simulate the important features of GR-T and provide insight on its physiological and ecological significance.

Published

2012