This article needs additional citations for verification. (August 2014) |
A fruit tree is a tree which bears fruit that is consumed or used by animals and humans — all trees that are flowering plants produce fruit, which are the ripened ovaries of flowers containing one or more seeds. In horticultural usage, the term "fruit tree" is limited to those that provide fruit for human food. Types of fruits are described and defined elsewhere (see Fruit), but would include "fruit" in a culinary sense, as well as some nut-bearing trees, such as walnuts.[1]
The scientific study and the cultivation of fruits is called pomology, which divides fruits into groups based on plant morphology and anatomy. Some of those groups are pome fruits, which include apples and pears, and stone fruits, which include peaches/nectarines, almonds, apricots, plums and cherries.[2]
Examples
edit- Abiu
- Almond
- Amla (Indian gooseberry)
- Apple
- Apricot
- Avocado
- Bael
- Ber (Indian plum)
- Carambola (starfruit)
- Cashew
- Cherry
- Citrus (orange, lemon, lime, etc.)
- Coconut
- Crab apple
- Damson
- Durian
- Elderberry
- Fig
- Grapefruit
- Guava
- Jackfruit
- Jujube
- Lemon
- Lime
- Loquat
- Lychee
- Mango
- Medlar
- Morello cherry
- Mulberry
- Olive
- Pawpaw, both the tropical Carica papaya and the North American Asimina triloba
- Peach and nectarine
- Pear
- Pecan
- Persimmon
- Pistachio
- Plum
- Pomelo
- Quince
- Pomegranate
- Rambutan
- Sapodilla (chikoo)
- Soursop
- Sugar-apple (sharifa)
- Sweet chestnut
- Tamarillo
- Ugli fruit
- Walnut
- Water Apple
Climate effects on fruit trees
editAdvantages
editFruit trees can withstand the variability of rainfall better than annual crops due to the deep root systems and the perennial growth habit.[3]
Disadvantages
editClimate change is significantly impacting fruit trees, with effects varying depending on the geographical region and type of fruit tree. The annual temperature in Japan, for example, has risen at a rate of 0.124 °C per decade from 1898 to 2019, influencing fruit tree flowering times and potentially leading to a physiological disorder known as "flowering disorder" in Japanese pear, which may result from abnormal flowering or dormancy or both.[4] In Australia, climate change is predicted to prompt a major shift in the fruit farming industry by 2030, affecting the winter chill period necessary for fruit production.[5]
In addition, climate change has caused challenges like early spring and late frosts, flooding, drought, and extreme heat, all of which effect fruit trees. Severe droughts and flooding affect the trees' growth, making them more susceptible to pests and diseases. Extreme heat can damage growing fruit directly on the tree.[6]
This situation is exacerbated by global trends towards reduced organic matter in soil, necessitating innovative water conservation and management strategies to ensure crop yield and quality.[7]
See also
editReferences
edit- ^ "Growing Fruit Trees in the Piedmont Region of North Carolina: A Guide for Abundant Harvests". Harvesting Nature's Bounty, One Step at a Time. 2023-06-05. Retrieved 2023-06-30.
- ^ Singha, Suman (2003), Concise encyclopedia of temperate tree fruit, New York: Food Products Press, pp. 3–5, ISBN 978-1-56022-941-4
- ^ "Fruit Tree - an overview | ScienceDirect Topics". www.sciencedirect.com. Retrieved 2024-02-08.
- ^ Tominaga, Akiyoshi; Ito, Akiko; Sugiura, Toshihiko; Yamane, Hisayo (2022). "How Is Global Warming Affecting Fruit Tree Blooming? "Flowering (Dormancy) Disorder" in Japanese Pear (Pyrus pyrifolia) as a Case Study". Frontiers in Plant Science. 12. doi:10.3389/fpls.2021.787638. ISSN 1664-462X. PMC 8861528. PMID 35211129.
- ^ Melbourne, Lauren Hull, University of (2016-06-21). "Climate change: What it means for fruits". Pursuit. Retrieved 2024-02-08.
{{cite web}}
: CS1 maint: multiple names: authors list (link) - ^ Susan (2022-06-21). "How Climate Change Will Affect Fruit Tree Management". orchardpeople.com. Retrieved 2024-02-08.
- ^ "The effects of climate change on fruit growing | ADAMA". www.adama.com. 2017-09-04. Retrieved 2024-02-08.
Further reading
edit- Goldschmidt, Eliezer E. (2013-03-01). "The Evolution of Fruit Tree Productivity: A Review". Economic Botany. 67 (1): 51–62. Bibcode:2013EcBot..67...51G. doi:10.1007/s12231-012-9219-y. ISSN 1874-9364. PMC 3606516. PMID 23538880.