Iklan

Pertanyaan

As spring arrives, albeit quite late this year for many of us, we notice the changing of seasons not only by the weather, but also by a host of natural events. Depending on where you live, the flowers may poke through the snow, the birds may be back, or the cherry trees may bloom. There is an orderly sequence of events that seem to occur, with various spring flowers appearing in order, red maple buds bursting into new layers, or the old lilac by the barn scenting the air. This seasonal cycle of natural phenomena is called phenology. Global climate change appears to be interfering with the phenology of many species, at the very heartof species interactions. In temperate regions like northern half the United States, there is comparatively little biological activity in winter. Most plants are dormant, and so are the insects feeding on them. In turn, animal that rely on these insects, such as bats and birds, are hibernating or spending the cold months in more southerly locations. Ectotherms like reptiles and amphibians, which period constrains all the growing, breeding, and dispersing activities that plants and animals do to a short favorable window. That is what makes spring so vibrant, with plants flowering and putting on new growth, insects emerging and breeding, and birds flying back to take advantage of this short-lived bounty. The onsets of each of these activities add up to so many phonological markers. Different organism respond to different cues to initiate seasonal activities. Many plants will start growing leaves again after a set period of dormancy, which very roughly dictates the leaf-out window. Cues that more precisely determine when the buds break can be soil temperature, air temperature, or water availability. Similarly, temperature cues can promote the beginning of insect activity. Day length itself can be the operative trigger for some seasonal events. It is only when there are a sufficient number of daylight hours that reproductive hormones will be produced in many bird species. The most energy-demanding period in the life of most animals is when they reproduce. For that reason, it is to their advantage to coincide breeding (and for many, the raising of young) during a period when food is most abundant. Caterpillars should hatch just as the young tender leaves of oak tree emerge, before they harden and become less nutritious. Breeding songbirds need to time the hatching of their young just during that peak in caterpillar activity, so they can take advantage of this rich source of protein to feed their offspring. Many species have evolved to exploit peaks in resource availability, so all these seemingly independent phonological events are indeed part of a complex web of precise interactions. Disturbances in seasonal events can have profound effects on ecosystems. The ideas in the passage may be best summarized that ...

         As spring arrives, albeit quite late this year for many of us, we notice the changing of seasons not only by the weather, but also by a host of natural events. Depending on where you live, the flowers may poke through the snow, the birds may be back, or the cherry trees may bloom. There is an orderly sequence of events that seem to occur, with various spring flowers appearing in order, red maple buds bursting into new layers, or the old lilac by the barn scenting the air. This seasonal cycle of natural phenomena is called phenology. Global climate change appears to be interfering with the phenology of many species, at the very heart of species interactions.

         In temperate regions like northern half the United States, there is comparatively little biological activity in winter. Most plants are dormant, and so are the insects feeding on them. In turn, animal that rely on these insects, such as bats and birds, are hibernating or spending the cold months in more southerly locations. Ectotherms like reptiles and amphibians, which period constrains all the growing, breeding, and dispersing activities that plants and animals do to a short favorable window. That is what makes spring so vibrant, with plants flowering and putting on new growth, insects emerging and breeding, and birds flying back to take advantage of this short-lived bounty. The onsets of each of these activities add up to so many phonological markers.

       Different organism respond to different cues to initiate seasonal activities. Many plants will start growing leaves again after a set period of dormancy, which very roughly dictates the leaf-out window. Cues that more precisely determine when the buds break can be soil temperature, air temperature, or water availability. Similarly, temperature cues can promote the beginning of insect activity. Day length itself can be the operative trigger for some seasonal events. It is only when there are a sufficient number of daylight hours that reproductive hormones will be produced in many bird species.

        The most energy-demanding period in the life of most animals is when they reproduce. For that reason, it is to their advantage to coincide breeding (and for many, the raising of young) during a period when food is most abundant. Caterpillars should hatch just as the young tender leaves of oak tree emerge, before they harden and become less nutritious. Breeding songbirds need to time the hatching of their young just during that peak in caterpillar activity, so they can take advantage of this rich source of protein to feed their offspring. Many species have evolved to exploit peaks in resource availability, so all these seemingly independent phonological events are indeed part of a complex web of precise interactions. Disturbances in seasonal events can have profound effects on ecosystems.

The ideas in the passage may be best summarized that ...

  1. in winter plants are dormant and animals are hibernating

  2. season change as the natural events do, following them

  3. winter constrains plants and animals from growing and breeding

  4. different organisms respond to different cues for seasonal activities

  5. phenological events represent a complex chain of natural interaction

Belajar bareng Champions

Brain Academy Champions

Hanya di Brain Academy

Habis dalam

02

:

02

:

20

:

45

Klaim

Iklan

N. Supriyaningsih

Master Teacher

Jawaban terverifikasi

Pembahasan

Berdasarkan teks di atas, dapat diketahui bahwa peristiwa fenologi memiliki banyak efek terhadap ekosistem, yang dijelaskan secara rinci pada teks, maka dapat disimpulkan bahwa ringkasanteks tersebut adalah(E) ‘phenological events represent a complex chain of natural interactions’ atau ‘peristiwa fenologis mewakili rantai interaksi alami yang kompleks’.

Berdasarkan teks di atas, dapat diketahui bahwa peristiwa fenologi memiliki banyak efek terhadap ekosistem, yang dijelaskan secara rinci pada teks, maka dapat disimpulkan bahwa ringkasan teks tersebut adalah (E) ‘phenological events represent a complex chain of natural interactions’ atau ‘peristiwa fenologis mewakili rantai interaksi alami yang kompleks’.

 

Perdalam pemahamanmu bersama Master Teacher
di sesi Live Teaching, GRATIS!

1

Iklan

Pertanyaan serupa

Population growth occurs because there are currently three births for every death. In the past, the crude birth rates were only slightly higher than crude death rates, but with improvements in medicin...

4

5.0

Jawaban terverifikasi

RUANGGURU HQ

Jl. Dr. Saharjo No.161, Manggarai Selatan, Tebet, Kota Jakarta Selatan, Daerah Khusus Ibukota Jakarta 12860

Coba GRATIS Aplikasi Roboguru

Coba GRATIS Aplikasi Ruangguru

Download di Google PlayDownload di AppstoreDownload di App Gallery

Produk Ruangguru

Hubungi Kami

Ruangguru WhatsApp

+62 815-7441-0000

Email info@ruangguru.com

[email protected]

Contact 02140008000

02140008000

Ikuti Kami

©2024 Ruangguru. All Rights Reserved PT. Ruang Raya Indonesia